臺灣博碩士論文加值系統

丹參為常用之中草藥，其主要活性成分有丹參酮I、丹參酮IIA、隱丹參酮以及丹參酚酸B。由於市面上丹參來源、品質及成分皆不一致且仰賴進口，故基源穩定、強壯且具高活性成分含量之丹參植株及其繁殖系統的建立便有其必要性。本試驗室曾利用主動誘變技術獲得一個在外觀型態上較為健壯之植株SH41，經本研究利用PCR技術確定為轉殖株後，進行其外觀型態及活性成份上的偵測和繁殖系統之建立。在外觀形態上，一年大之馴化植株的葉片數量雖只有WT的1/3，但在葉長、葉寬和株高皆較WT好（分別為其1.3、1.7和1.7倍），其葉片顏色較深、表面較為皺摺，利用SEM觀察到每平方毫米葉片上的毛茸組織為WT的1.9倍。在活性成分分析方面，結果顯示SH41根部之丹參酚酸B、迷迭香酸、丹參酮I及IIA明顯高於WT(分別為1.4、1.3、3及2倍)，故值得利用微體繁殖系統進行大量培養。在組織培養大量繁殖系統中，不定芽繁殖率以添加1 mg/L BA處理45天後最佳，WT可達5棵，而SH41可達3棵。另外在不同培養介質（agar及gelrite）、和不同營養及荷爾蒙（MS、蔗糖和kinetin）添加的部分不定芽平均數約2棵。在丹參發根試驗中則以1 mg/L NAA處理最佳，其發根率可達100％，不過在發根培養介質（agar及gelrite）上，SH41之發根效果皆低於WT（前者少20％，後者少40％），且蔗糖及IBA處理後亦得到類似結果（皆比WT少20％）。綜合上述，SH41植株在外觀健壯度上與活性成分皆優於WT，在不同大量繁殖條件下，SH41需在添加1 mg/L BA的1X MS、3％蔗糖及0.9％ agar培養條件下，其芽體繁殖率最佳。經本研究所確認SH41為較高活性成分之SH41植株及所建立大量繁殖系統，將可在GMO田間試驗後，提供業界生產大量丹參植株，以滿足市場之需求。

Salvia miltiorrhiza Bunge is a well known oriental medicinal herb. Roots of S. miltiorrhiza, generally known as Dan-shen, contain bio-active compounds such as tanshinone I, tanshinone IIA, cryptotanshinone and salvianolic acids B. On the basis of an previously obtained activation-tagged S. miltiorrhiza, SH41 is morphologically different from wild type. After the molecular verification, SH41 was identified as transgenic plant and was observed with larger and more trichomes and cell tissues. Moreover, the content of salvianolic acid B, rosmaric acid, tanshinone I and tanshinone IIA in SH41 are 1.4, 1.3, 3 and 2 times higher than wildtype. This transgenic S. miltiorrhiza, which is strong and contains high active compounds, is worthy to establish its plant regeneration system. Results showed that SH41 has weaker budding and rooting ability comparing to wild type (in different gelrite agents’s MS medium and under different sugar concentration, and different growth hormones treatment): with a higher propagation rate at 1X MS agar medium supplemented with 1 mg/L BA, 3% sucrose and a better rooting ability at 1X MS agar medium supplemented with 1 mg/L NAA, 3% sucrose. After GMO evaluation, SH41 and its regeneration system established in this study could be used for industrial purpose in the future.

主目錄
中文摘要………………………………………………………………I
英文摘要………………………………………………………………Ⅱ
目錄……………………………………………………………………Ⅲ
表目錄…………………………………………………………………V
圖目錄…………………………………………………………………Ⅵ
附錄目錄………………………………………………………………Ⅷ
縮寫表 ………………………………………………………………IX
壹、前言………………………………………………………………1
貳、文獻回顧…………………………………………………………2
一、丹參背景之介紹..…………………………………………………….....2
(一) 丹參外觀特徵與產地分布………………………………………......2
(二) 丹參之本草考察…………………………………………………......2
（三）丹參活性成分之藥理研究………………………………………....4
二、丹參基因轉殖系統建立之研究..……………………………………....7
三、丹參外觀型態與活性成分之鑑定..…………………………………....8
四、丹參微體繁殖之介紹.……………………………………………….....9
參、材料與方法…….………………………………………………………....12
一、試驗材料………………………………………………………….........12
二、試驗方法………………………………………………………….........12
(一) 主動誘變丹參植株多功能T-DNA分子檢測………….………......12
(二) 丹參形態之觀察…………………………………………………....14
(三) 丹參植株活性成分含量之檢測………………………………........14
(四) 丹參微體繁殖試驗…………………………………………............16
肆、結果與討論…………………………………………………………….....19
ㄧ、主動誘變丹參植株之外觀型態鑑定…………………………………19
二、主動誘變丹參植株之分子層面分析…………………………………20
三、利用HPLC分析丹參馴化植株之有效成分…………………………20
四、丹參之微體繁殖………………………………………………………22
伍、結論……………………………………………………………………….29
陸、參考文獻………………………………………………………………......56
柒、附錄……………………………………………………………………......70
附錄1.酚酸類及萜類化合物之生合成途徑……………………………..70
附錄2.丹參之化學成分結構式…………………………..........................71
附錄3.農桿菌EHA105/pTAG-8質體示意圖…………………………....72
附錄4.南方墨點法之毛細管法轉印核酸裝置示意圖…………………..72


表目錄
表1. 丹參化學成分移動相之梯度沖提一覽表…………………………......31
表2. 丹參標準品迴歸檢量方程式、決定係數與其滯留時間………..........31
表3.1 10種丹參標準品偵測極限與其同日間與異日間確效性分析…........32
表4. 以不同萃取溶液比例分析市售丹參藥材…………………………......33
表5. 丹參野生種與主動誘變植株及市售產品之活性成分含量分析…......34
表6. 透氣性容器封口與處理時間對丹參組培苗發根之影響………..........35
表7. 丹參組培苗透氣處理之馴化後存活率……………………………......36












圖目錄
圖1. 丹參植株之外觀型態………...………….………………………….......37
圖2. 以掃描式電子顯微鏡偵測丹參葉片及根部橫切面之外觀型態……...38
圖3. 以掃描式電子顯微鏡偵測丹參葉片正反兩面之外觀型態…………...39
圖4. 以掃描式電子顯微鏡偵測丹參毛茸組織之外觀型態………………...40
圖5. 利用PCR檢測農桿菌質體與丹參主動誘變植株……….…………....41
圖6. 不同MS鹽類濃度對丹參莖節培植體誘導及增殖芽體之影響...........42
圖7. 不同MS鹽類濃度對丹參莖節培植體誘導及發根之影響……...........43
圖8. 不同蔗糖濃度對丹參莖節培植體誘導及增殖芽體之影響……...........44
圖9. 不同蔗糖濃度對丹參莖節培植體誘導及發根之影響……...................45
圖10. 不同Difco agar濃度對丹參莖節培植體誘導及增殖芽體之影響......46
圖11. 不同Difco agar濃度對丹參莖節培植體誘導及發根之影響……......47
圖12. 不同gelrite濃度對丹參莖節培植體誘導芽體及增殖之影響............48
圖13. 不同gelrite濃度對丹參莖節培植體誘導及發根之影響………........49
圖14. 不同BA濃度對丹參莖節培植體誘導及增殖芽體之影響……........50
圖15. 不同kinetin濃度對丹參莖節培植體誘導及增殖芽體之影響...........51
圖16. 不同IBA濃度對丹參莖節培植體誘導及發根之影響……...............52
圖17. 不同NAA濃度對丹參莖節培植體誘導及發根之影響…….............53
圖18. 透氣性容器封口與處理時間對丹參組培苗增殖與生長的影響.…...54
圖19. 透氣性容器封口與處理時間對丹參組培苗增殖與生長的影響…....55

《中華本草》編委會，中華本草﹙七﹚，上海科學技術出版社，上海，第7.169-7.184頁﹙1999﹚。
王月華、孫鵬凱、余淑美，「植物基因轉殖技術之研發與發展」，植物基因轉殖之原理與應用，台中，第7-23頁（2005）。
甘偉松，藥用植物學，國立中國醫藥研究所出版，台北，第485-486頁﹙1969﹚。
余淑美，「植物功能性基因體研究」，後基因體時代之生物技術，台灣，第41-50頁﹙2003﹚。
吳晉東，「利用丹參葉片癒合組織生產隱丹參酮之研究」，碩士論文，國立中興大學農藝學系，台中（2002）。
林順福，「生物技術在水稻育種上之應用」，東部稻米產銷研討會專刊，第33-46頁（2005）。
林義恭、賴瑞聲、陳邦華，「丹參的種子發芽試驗及栽培條件」，行政院農業試驗所 技術服務季刊，第16卷，第64期，第15-17頁（2005）。
林南海，「丹參萃取物之開發與應用(I)：丹參酮IIA之物性與動力學探討」，碩士論文，嘉南藥理科技大學生物科技系，嘉義（2006）。
林義恭、歐錫坤，「丹參的量產栽培與高價純化物丹參酸的萃取」，行政院農業試驗所 技術服務季刊，第20卷，第77期，第35頁（2009）。
郭昭麟、闕甫伈、陳忠川，「中藥材之基原鑑定」，中草藥產業技術與研發，台中，第67-116頁（2003）。
郭昭麟、羅淑芳、李鎮宇、蔡新聲，「植物組織培養再生技術與基因轉殖」，植物基因轉殖之原理與應用，台中，第25-45頁（2005）。
郭昭麟，「臺灣市售易誤用混用中草藥調查、基原鑑定及數位影像鑑定圖譜之建立」，中醫藥年報，第25期，第4冊，第466頁（2007）。
陳威臣、戴宗德、陳忠川、蔡新聲，「湖北貝母組織培養之研究III.培養基組成份及光照處理對誘導小鱗莖發根之影響」，中華農業研究，第49卷，第4期，第39-47頁﹙2000﹚。
陳威臣、蕭翌柱、楊淑如、葉茂生、蔡新聲，「瓶內馴化處理對組織培養苗生長之影響」，科學農業，第49卷，第276-280頁（2001）。
陳國峰、何政坤、郭幸榮，「農桿根群菌促進台灣紅豆杉成熟樹插穗發根」，臺灣林業科學，第18卷，第3期，第213-223頁（2003）。
陳威臣、夏奇鈮、葉茂生、蔡新聲，「鹽類濃度、蔗糖、植物生長素及培養容器瓶口覆蓋物對高氏柴胡組培苗發根與馴化之影響」，中華農業研究，第53卷，第249-260頁﹙2004﹚。
陳威臣、蕭翌柱、蔡新聲、夏奇鈮，「細胞分裂素與透氣性容器封口對丹參組培苗增殖與玻璃質化之影響」，台灣農業研究，第54卷，第93-102頁﹙2005﹚。
陳威臣、曹進義、夏奇鈮，「丹參組織培養苗馴化處理及其植株丹參酮含量分析」，台灣農業研究，第56卷，第21-30頁﹙2007﹚。
陳志明，丹參的奇效，城邦文化事業股份有限公司出版，台北，第122-146頁（2007）。
陳威臣、詹効松、李秋儀、曹進義、劉禎祺、李艷琪、夏奇鈮，「丹參毛狀根培養建立與其丹參酮產量之研究」，台灣農業研究，第57卷，第305-316頁﹙2008﹚。
陳建甫，「主動誘變轉殖系牛樟芝活性成份分析與其分子層面之研究」，碩士論文，朝陽科技大學生化科技研究所，台中﹙2008﹚。
黄秀蘭、王長根、董月麗，「野生與栽培丹參的質量研究」，中藥材，第12卷，第6期，第31-34頁（1989）。
張高銘，新編神農本草經，莊家出版社，臺南，第80-81頁﹙1982﹚。
張乃文，「台灣金線連之組織培養繁殖技術」，碩士論文，國立中興大學農藝學系，台中（1999）。
張淑華、何政坤、蔡錦瑩、陳振榮，「Thidiazuron 促進赤桉優良營養系葉片癒合組織之植株再生」，台灣林業科學，第15卷，第81-90頁（2000）。
張君儀，「粉防己﹙Stephania tetrandra S.MOORE﹚組織培養之研究：粉防己癒合組織培養及其成分測定」，碩士論文，中國醫藥大學 藥學院 中國藥學研究所，台中﹙2008﹚。
鄂征，組織培養和分子細胞學技術（上冊），九州圖書，台北，全冊（2002）。
鄂征，組織培養和分子細胞學技術（下冊），九州圖書，台北，全冊（2002）。
詹如，「庫拉索盧會之組織培養」，碩士論文，朝陽科技大學生物技術研究所，台中﹙2006﹚。
楊淑如、蕭翌柱、陳威臣、蔡新聲，「藥用植物-銅皮石斛人工授粉時期及果莢發育之研究」，中華農業研究，第50卷，第74-79頁（2001）。
楊淑如、戴宗德、陳忠川、蔡新聲，「植物生長調節技及培養基型態對湖北貝母鱗片培養衍生芽球相似體及小鱗片增重之影響」，中華農學會報，第2卷，第5期，第414-422頁（2001）。
趙錡，本草綱目，新華書店，北京，第758-760頁（1982）。
賴建洲、張森富、方煒、蔡新聲，「透氣率對康乃馨與玄蔘組培苗玻璃質化影響之探討」，農業機械與生物機電論文發表會，宜蘭（2004）。
蕭翌柱、戴宗德、陳忠川、蔡新聲，「湖北貝母組織培養之研究I.不同來源培植體誘導鱗片及胚狀化癒和組織之形成」，中華農業研究，第49卷，第29-38頁﹙2000﹚。
蘇毓琇，「牛樟芝利用農桿菌進行基因轉殖系統之研究」，碩士論文，朝陽科技大學生化科技研究所，台中﹙2006﹚。
Abdoli, M., Moieni, A., and Dehghani, H., “Effects of cultivar and agar concentration on in vitro shoot organogenesis and hyperhydricity in sunflower（Helianthus Annuus L.）,” Pak. J. Bot., Vol. 39, No. 1, pp.31-35（2007）.
Aggarwal, D., and Barna, K., “Tissue culture propagation of elite plant of Aloe vera Linn,” J. Plant Biochemistry and Biotechnology, Vol. 13, pp. 77-79（2004）.
Benmahioul, B., Harche, M. K., Dorion, N., and Daguin, F., “In vitro embryo germination and proliferation of pistachio（Pistacia vera L.）,” Scientia Horticulturae, Vol. 122, pp. 479-483（2009）.
Bonhomme, V., Mattar, D. L., Lacoux, J., Fliniaux, M. A., and Dubreuil, A. J., “Tropane alkaloid production by hairy roots of Atropa belladonna obtained after transformation with Agrobacterium rhizogenes 15834 and Agrobacterium tumefaciens containing rol A, B, C genes only,” Journal of Biotechnology, Vol. 81, pp. 151–158（2000）.
Casanova, E., Moysset, L., and Trillas, M. I., “Effects of agar concentration and vessel closure on the organogenesis and hyperhydricity of adventitious carnation shoots,” Biol. Plant., Vol. 52, pp. 1-8（2008）.
Cao, E. H., Liu, X. Q., Wang, J. J., and Xu, N. F., “Effect of natural antioxidant tanshinone II-A on DNA damage by lipid peroxidation in liver cells,” Free Radic Biol Med, Vol. 20, pp. 801-806（1996）.
Chang, H. H., and Chan, M. T., “Agrobacterium tumefaciens-mediated transformation of soybean（Glycine max（L.）Merr.）is promoted by the inclusion of potato suspension culture,” Bot. Bull. Academia Sinica, Vol. 32, pp. 171-178（1991）.
Chang, S. H., Ho, C. K., Chang, Z. Z., and Tsay, J. Y., “Micropropagation of Taxus mairei from mature trees,” Plant Cell Rep, Vol. 20, pp. 496-502（2001）.
Chen, H., and Chen, F., “Effects of methyl jasmonate and salicylic acid on cell growth and cryptotanshinone formation in Ti transformed Salvia miltiorrhiza cell suspension cultures,” Biotechnology letter, Vol. 21, pp. 803-807（1999a）.
Chen, H., and Chen, F., “Effect of yeast elicitor on the secondary metabolism of Ti-transformed Salvia miltiorrhiza cell suspension cultures,” Plant Cell Reports , Vol. 19, No. 7, pp.710-717（2000）.
Chen, Y. H., Lin, S. J., Ku, H. H., Shiao, M. S., Lin, F. Y., Chen, J. W., and Chen, Y. L., “Salvianolic acid B attenuates VCAM-1 and ICAM-1 expression in TNF-alpha-treated human aortic endothelial cells,” Cell Biochem, Vol. 82, pp. 512-521（2001）.
Choi, H. W., Lemaux, P. G., and Cho, M. J., “High frequency of cytogenetic aberration in transgenic oat（Avena sativa L.）plants,” Pant Science, Vol. 160, pp. 763-772（2001）.
Chou, L. C., and Chang, D. C. N., “Asymbiotic and symbiotic seed germination of Anoectochilus formosanus and Haemaria discolor and their F1 hybirds,” Bot. Bull. Acad. Sin., Vol. 45, pp. 143-147（2004）.
Chueh, F. S., Chen,C. C., Sagare, A. P. and Tsay, H. S., “Quantitative determination of secoiridoid glucosides in in vitro propagated plants of Gentiana davidii var. formosana by high performance liquid chromatography,” Planta Medica, Vol. 67, pp. 70-74（2001）.
Don, M. J., Liao, J. F., Lin, L. Y., and Chiou1, W. F., “Cryptotanshinone inhibits chemotactic migration in macrophages through negative regulation of the PI3K signaling pathway,” British Journal of Pharmacology, Vol. 151, pp. 638-646（2007）.
Evans, D. A., Sharp, W. R., and Flick, C. E., “Growth and behavior of cell cultures : embryogenesis and organogenesis,” In : Plant Tissue Culture: Methods and Applications in Agriculture. (T. A. Thorpe, ed.), pp. 45-113（1981）.
Feng, Z., and Zhang, J. T., “Effects of salvianolic acid B on b-amyloid peptide neurotoxicity of primary culture fetal rat cortical neurons,” Acta Pharmaceutica Sinica, Vol. 35, No. 88, pp. 1-5（2000）.
Fits, L., Hilliou, F., and Memelink, J., “T-DNA activation tagging as a tool to isolate regulators of a metabolic pathway from a genetically non-tractable plant species,” Transgenic Res, Vol. 10, pp. 513-521（2001）.
Fujioka, N., Kurish, Y., Miyagawa, H., Kohda, H., Yamasaki, K., Shoyama, R., and Nishioka, I., “Studies on the tissue culture of Panax japonicus（1）Multiplication by somatic embryogenesis of flower bud and rhizome,” The Japanese Journal of Pharmacognosy, Vol. 40, No. 2, pp. 152-1583（1986）.
George, E. F., and Sherrington, P. D., Plant propagation by tissue culture – handbook and directory of commercial laboratories, Exegetics, England, pp. 548（1984）.
Goa, W., Loester, R., Raschke, M., Dessoy, M. A., Fulhorst, M., Alpermann, H., Wessjohann, L. A., and Zenk, M. H., “ (E)-4-Hydroxy-3- methylbut-2-enyl diphosphate: an intermediate in the formation of terpenoids in plant chromoplasts,” Chemistry International, Vol. 41, No. 14, pp. 2604-2607（2002）.
Grant, J. J., Chini, A., Basu, D., and Loake, G. J., “Targeted activation tagging of ADR1, a NBS-LRR gene, conveys resistance to virulent pathogens,” Mol Plant Microbe Interact, Vol. 16, pp. 669-680（2003）.
Guo, B. L., Feng, Y. X., and Zhao, Y. J., “Review of germplasm resources studies on Salvia miltiorriza China,” J. Chinese Materia Medica, Vol. 27, pp. 492-495（2002）.
Han, W., Rhee, H. I., Cho, J. W., Ku, S. B., Song, P. S., and Wang, M. H., “Overexpression of Arabidopsis A CK1 alters leaf morphology and retrads growth and development,” Biochmical and Biophysical Research Communications, Vol. 330, pp. 887-890（2005）.
Hatano, K., Shoyama, Y., and Nishioka, I., “Multiplication of Pinellia ternata by callus culture of leaf segment,” The Japanese Journal of Pharmacogeosy, Vol. 40, No. 2, pp. 188-192（1986）.
Hu, C.Y., and Wang, P. J. M., “Shoot-tip and bud culture,” Plant Cell Culture, pp. 171-277（1983）.
Hung, H. H., Chen, Y. L., Lin, S. J., Yang, S. P., Shih, C. C., Shiao, M. S., and Chang, C. H., “A salvianolic acid B-rich fraction of Salvia miltiorrhiza induces neointimal cell apoptosis in rabbit angioplasty model,” Histol Histopathol, Vol. 16, pp. 175-183（2001）.
Kadota, M., and Niimi, Y., “Improvement of micropropagation of Japanese yam using liquid and gelled medium culture,” Scientia Horticulturae, Vol.102, pp. 461-466（2004）.
Kwak, H. B., Sun, H. M., Ha, H., Kim, H. N., Lee, J. H., Kim, H. H., Shin, H. I., and Lee, Z. H., “Tanshinone IIA suppresses inflammatory bone loss by inhibiting the synthesis of prostaglandin E2 in osteoblasts,” European Journal of Pharmacology, Vol. 601, pp. 30-37（2008）.
Kuberski, C., Scheibner, H., and Steup, C., “Embryogenesis and cardenolide formation in tissue cultures of Digitalis lanata,” Plant, Vol. 153, pp. 466（1984）.
Kung, Y. J., Bau, H. J., Wu, Y. L., Huang, C. H., Chen, T. M., and Yeh, S. D., “Generation of transgenic papaya with double resistance to papaya ringspot virus and papaya leaf-distortion mosaic virus,” Phytopathology, Vol. 99, pp. 1312-1320（2009）.
Kuo, C. L., Sagare, A. P., Lo, S. F., Chen, C. C., and Tsay, H. S., “Abscisic acid ﹙ABA﹚ promotes development of somatic embryos on converted somatic embryos of Corydalis yanhusuo﹙Fumariaceae﹚,” J. Plant Physiol, Vol. 159, pp. 423-427（2002）.
Lam, F. Y., Yeung, H. K., Chan, M., and Or, M. Y., “Relaxant effects of danshen aqueous extract and its constituent danshensu on rat coronary artery are mediated by inhibition of calcium channels,” Vascular Pharmacology, Vol. 46, pp. 271–277（2007）.
Laia, C. C., Lin, H. M., Nalawadec, S. M., Fanga, W., and Tsay, H. S., “Hyperhydricity in shoot cultures of Scrophularia yoshimurae can be effectively reduced by ventilation of culture vessels,” Journal of Plant Physiology, Vol. 162, pp. 355-361（2005）.
Lee, D. S., Lee, S. H., Noh, J. G., and Hong, S. D., “Antibacterial activities of cryptotsnshinone and dihydrotanshinone I from a medicinal herb, Salvia miltiorrhiza,” Bioscience, Biotechnology and Biochemistry, Vol. 63, pp. 2236-2239（1999）.
Lee, J., Kim, Y. S., and Park, D., “Rosmarinic acid induces melanogenesis through protein kinase A activation signaling,” Biochemical pharmacology, Vol. 74, pp. 960 – 968（2007）.
Lee, J. W., Ji, Y. J., Lee, S. O., and Lee, I. S., “Effect of Saliva miltiorrhiza bunge on antimicrobial activity and resistant gene regulation against methicillin-resistant staphylococcus aureus （MRSA）,” J. Microbiol, Vol. 45, No. 4, pp. 350-357（2007）.
Lee, C.Y., Agrawal, D. C., Chou, T. M., Wang, C. S., Yu, S. M., Chen, J. W., and Tsay, H. S., “T-DNA activation tagging as a tool to isolate Salvia miltiorrhiza Bunge transgenic lines for higher yields of tanshinones,” Planta Medica, Vol. 74, pp. 1-7（2008）.
Li, X. H., and Tang, R. Y., “Relationship between inhibitory action of tanshinone on neutrophil function and its prophylactic effects on myocardial infarction,” Zhongguo Yao Li Xue Bao, Vol. 12, pp. 269-272（1991）.
Liang, Y., Yang, Y., Yuan, S., Liu, T., Jia, Y., Xu, C., Niu, T., Qin, H., and Qin, P., “Terminal differentiation of human acute promyelocytic leukemia﹙APL﹚cells induced by tanshinone II-A in primary culture,” Hua Xi Yi Ke Da Xue Xue Bao, Vol. 31, pp. 207-210（2000）.
Lin, L. C., Nalawade, S. M., Mulabagal, V., Yeh, M. S., and Tsay, H. S., “Micropropagation of Polygonum multiflorum Thunb. and quantitative analysis of anthraquinones-emodin & physcion formed in in vitro propagated shoots and plants,” Biological and Pharmaceutical Bulletin, Vol. 26, No. 10, pp. 1467-1471（2003）.
Ling, M., Liao, L. B., Xu, Y. H., Xi, Q. L., Qian, Y., and Ge, B. X., “The water-soluble component of Salvia miltiorrhiza Bge. can promote macrophage synthesis of C4 in vivo and in vitro,” Exp Clin Immunogenet, Vol. 10, pp. 45-49（1993）.
Liu, G. T., Zhang, T. M., Wang, B. E., and Wang, Y. W., “Protective action of seven natural phenolic compounds against peroxidative damage to biomembranes,” Biochem Pharmacol, Vol. 43, pp. 147-152（1992）.
Liu, C. H., Hu, Y. Y., Wang, X. L., Liu, P., and Xu, L. M., “Effects of salvianolic acid-A on NIH/3T3 fibroblast proliferation, collagen synthesis and gene expression,” World J Gastroentero, Vol. 6, No. 3, pp. 361-364（2000）.
Liu, P., Hu, Y., Liu, C., Liu, C., and Zhu, D., “Effects of salviainolic acid A ﹙SA-A﹚ on liver injury: SA-A action on hepatic peroxidation,” Liver, Vol. 21, pp. 384-390（2001）.
Lu, M. C., “Micropropagation of Morus latifolia poilet using axillary buds from mature trees,” Scientia Horticulturae, Vol. 96, pp. 329-341（2002）.
Lupotto, E., Conti, E., Reali, A., Lanzanova, C., Baldoni, E., and Allegri, L., “Improving in vitro culture and regeneration conditions for Agrobacterium-mediater maize transformation,” Maydica, Vol. 49, pp. 21-29（2004）.
Moncousin, C. H., “Rooting of microcuttings: general aspects,” Acta Hortic, Vol. 289, pp. 301-310（1991）.
Nakazawal, M., Ichikawal, A., Kobayashil, H., Tsuharal, Y., Kawashimal, M., Suzukil, K., Muto, S., and Minami, M., “Activation tagging, a novel tool to dissect the function of a gene family,” Plant J, Vol. 34, pp. 741-750（2003）.
Natali, L., Sanchez, I. C., and Cavallini, A., “In vitro culture of Aloe barbadensis Mill.：Micropropagtion from vegetative meristems,”Plant Cell： Tissue and Organ Culture, Vol. 20, pp. 71-74（1990）.
Niu, X. L., Ichimori, K., Yang, X., Hirota, Y., Hoshiai, K., Li, M., and Nakazawa, H., “Tanshinone II-A inhibits low density lipoprotein oxidation in vitro,” Free Radic Res, Vol. 33, pp. 305-312（2000）.
Onitsuka, M., Fujiu, M., Shinma, N., and Maruyama, H. B., “New platelet aggregation inhibitors from Tan-Shen; radix of Salvia miltiorrhiza Bunge,” Chem Pharm Bull, Vol. 31, pp. 1670-1675（1983）.
Otani, M., Mii, M., Handa, T., Kamada, H., and Shimada, T., “Transformation of sweet potato（Ipomoea batatas（L.）Lam.）plants by Agrobacterium rhizogenes,” Plant Science, Vol. 94, pp. 151-159（1993）.
Park, S.W., Jeon, J. H., Kimb, H. S., Park, Y. M., Aswath, C., and Joung, H., “Effect of sealed and vented gaseous microenvironments on the hyperhydricity of potato shoots in vitro,” Scientia Horticulturae, Vol. 99, pp. 199-205（2004）.
Park, E. J., Zhao, Y. Z., Kim, Y. C., and Sohn, D. H.,“Preventive effects of a purified extract isolated from Salvia miltiorrhiza enriched with tanshinone I, tanshinone IIA and cryptotanshinone on hepatocyte injury in vitro and in vivo,” Food and Chemical Toxicology, Vol. 47, pp. 2742-2748（2009）.
Ray, F. E., Physical Principles of Electron Microscopy- An Introduction to TEM, SEM, and AEM, Springer, US, pp. 125-153（2005）.
Ren, D. C., Du, G. H., and Zhang, J. T., “Inhibitory effect of the water-soluble extract of Salvia miltiorrhiza on neutrophil-endothelial adhesion,” Jpn J. Pharmacol, Vol. 90, pp. 276-280（2002）.
Piqueras, A., Cortina, M., Serna, M. D., and Casas, J. L., “Polyamines and hyperhydricity in micropropagated carnation plants,” Plant Science, Vol. 162, pp. 61-678（2002）.
Pliura, A., Zhang, S. Y., Kay, M. J., and Bousquet, J., “Genotypic variation in wood density and growth traits of poplar hybrids at four clonal trials,” Forest Ecology and Management, Vol. 238, pp. 92-106（2007）.
Sahoo, Y., and Chand, P. K., “Micropropagation of Vitex negundo L., a woody aromatic medicinal shrub, through high-frequence axillary shoot proliferation,” Plant Cell Rep, Vol. 18, pp. 301-307（1998）.
Schneider, A., Kirch, T., Gigolashvili, T., Mock, H. P., Sonnewald, U., Simon, R., Flugge, U. I., and Werr, W., “A transposon-based activation-tagging population in Arabidopsis thaliana（TAMARA）and its application in the identification of dominant developmental and metabolic mutations,” FEMS Lett, Vol. 14, pp. 247-258（2005）.
Serrato, V. G., Bisio, A., Cornara, L., and Ciarallo, G., “Structural and histochemical investigation of the glandular trichomes of Salvia aurea L. leaves, and chemical analysis of the essential oil,” Annals of Botany, Vol. 79, pp. 329-336（1997）.
Strycharz, S., and Shetty, K., “Effect of Agrobacterium rhizogenes on phenolic content of Mentha pulegium elite clonal line for phytoremediation applications,” Process Biochemistry, Vol. 38, pp. 287-293（2002）.
Shiau, Y. J., Sagare, A. P., and Tsay, H. S., “Conservation of Anoectochilus formosanus, a medicinally important terrestrial orchid, by synchronizing flowering, hand-pollination, and in vitro culture of seeds,” Bot. Bull. Acad. Sinica, Vol. 43, pp. 123-130（2002）.
Shrawat, A. K., Becker, D., and Lo¨rz, H., “Agrobacterium tumefaciens-mediated genetic transformation of barley（Hordeum vulgare L.）,” Plant Science, Vol. 172, pp. 281–290（2007）.
Simoh, S., Quintana, N., Kim, H. K., Choi, Y. H., and Verpoorte, R., “Metabolic changesin Agrobacterium tumefaciens-infected Brassica rapa” Journal of Plant Physiology, Vol. 166, pp. 1005-1014（2009）.
Sung, H. J., Choi, S. M., Yoon, Y., and An, K. S., “Tanshinone IIA, an ingredient of Salvia miltiorrhiza Bunge, induces apoptosis in human leukemia cell lines through the activation of caspase-3, ” Exp Mol Med, Vol. 31, pp. 174-178（1999）.
Supartana, P., Shimizu, T., Shioiri, H., Nogawa, M., Nozue, M., and Kojima, M., “Development of simple and efficient in planta transformation method for rice （Oryza sativa L.）using Agrobacterium tumefaciens,” Journal of bioscence and bioengineering, Vol. 100, No. 4, pp. 391-397（2005）.
Supartana, P., Shimizu, T., Nogawa, M., and Shioiri, H., “Development of simple and efficient in planta transformation method for wheat（Triticum aestivum L.）using Agrobacterium tumefaciens,” Journal of bioscence and bioengineering, Vol. 102, No. 3, pp. 162–170（2006）.
Swagata, R., and Sumita, J., “Withanolide synthesis in cultures of Withania somnifera transformed with Agrobacterium tumefaciens,” Plant Science, Vol. 146, pp. 1-7（1999）.
Tina, H., Xinwei, C., Pedro, N., John, J. G., Marjorie, S., Andrea, C., Eleanor, G., Paul, R. J. B., and Gary, J. L., “Activation tagging in plant: a tool for gene discovery,” Funct. Integr. Genomics, Vol. 4, pp. 258-266（2004）.
Tsay, H. S., Gau, T. G., and Chen, C. C., “Rapid clonal propagation of Pinellia ternate by tissue culture,” Plant Cell Rep, Vol. 8, pp. 450-454（1989）.
Tsay, H. S., and Huang, and H. L., “Immature embryo culture of Angelica sinensis﹙Oliv.﹚Diels,” Acta. Hort., Vol. 447, pp. 207-209（1997）.
Tseng, T. H., Wang, C. J., Kao, E. S., and Chu, H. Y., “Hibiscus protocatechuic acid protects against oxidative damage induced by tertbutylhydroperoxide in rat primary hepatocytes,” Chemico-Biological Interactions, Vol. 101, pp. 137-148（1996）.
Tao, J., and Li, L., “Genetic transformation of Torenia fournieri L. mediated by Agrobacterium rhizogenes,” South African Journal of Botany, Vol. 72, pp. 211-216（2006）.
Vijaya Chitra, D. S., and Padmaja, G., “Clonal propagation of mulberry（Morus indica L. cultivar M-5）through in vitro culture of nodal explants,” Sci. Hortic, Vol. 80, pp. 289–298（1999）.
Wang, N., Luo, H. W., Niwa, M., and Ji, J., “A new platelet aggregation inhibitor form Salvia miltiorrhiza,” Planta Medica, Vol. 55, pp. 390-391（1989）.
Wang, X., Yuan, S., Huang, R., and Song, Y., “An observation of the effect of tanshinone on cancer cell proliferation by brdu and PCNA labeling,” Hua Xi Yi Ke Da Xue Xue Bao, Vol. 27, pp. 388-391（1996）.
Wang, S., Gao, Z., Li, E., Su, C., and Zhu, H., “The application with protocatechualdehyde to improve anticoagulant activity and cell affinity of silk fibroin,” Applied Surface Science, Vol. 255, pp. 486–488（2008）.
Wang, S. F., Sun, Y. M., Lei, W., Yang, R., and Sun, M., “Induction and culture of hairy roots in Scutellaria viscidula and its baicalin production,” Zhongguo Zhong Yao Za Zhi, Vol. 33, No. 14, pp. 1669-72（2008）.
Werker, E., Putievsdy, E., Ravid, U., Duda, N., and Katzir, I., “Glandular hairs and essential oil in developing leaves of Ocimum basilicum L.（Lamiaceae）,” Annals of Botany, Vol. 71, pp. 43-50（1993）.
Wu, C. T., Mulahbagal, V., Nalawade, S. M., Chen, C. L., Yang, T. F., and Tsay, H. S., “Isolation and quantitative analysis of cryptotanshinone, an active quinoid diterpene formed in callus of Salvia miltiorrhiza Bunge,” Biological & Phamaceutical Bulletin, Vol. 26, pp. 845-848（2003）.
Wu, Y. P., Zhao, X. M., Pan, S. P., Guo, D. A., Wei, R., Han, J. J., Kainoh, M., Xia, Z. L., Groot, P. G. D., and Lisman, T., “Salvianolic Acid B inhibits platelet adhesion under conditions of flow by a mechanism involving the collagen receptor α2β1,” Thrombosis Research, Vol. 123, pp. 298-305（2008）.
Xu, J. W., Ikeda, K., Kobayakawa, A., Ikami, T., Kayano, Y., Mitani, T., and Yamori, Y., “Downregulation of Rac1 activation by caffeic acid in aortic smooth muscle cells,” Life Sciences, Vol. 76, pp. 2861–2872（2005）.
Yagi, A., Fujimoto, K., Tanonaka, K., Hirai, K., and Takeo, S., “Possible active components of tanshen ﹙Salvia miltiorrhiza﹚ for protection of the myocardium against ischemia-induced derangements,” Planta Med, Vol. 55, pp. 51-54（1989）.
Yagi, A., Fujimoto, K., Niwa, T., Tanonaka, K., and Takeo, S., “Effect of abietane-type pigments from Salvia miltiorrhiza on posthypoxic recovery of cardiac contractile force in rats,”Planta Medica, Vol. 57, pp. 288-289（1991）.
Yagi, A., Okamura, N., Tanonaka, K., and Takeo, S., “Effects of tanshinone VI derivatives on post-hypoxic contractile dysfunction of perfused rat hearts,” Planta Med, Vol. 60, pp. 405-409（1994）.
Yan, Y. P., and Wang, Z. Z., “Genetic transformation of the medicinal plant Salvia miltiorrhiza by Agrobacterium tumefaciens-mediated method,” Plant Cell Tiss Organ Cult, Vol. 88, pp. 175–184（2007）.
Yoon, Y., Kim, Y. O., Jeon, W. K., Park, H. J., and Sung, H. J., “Tanshinone IIA isolated from Salvia miltiorrhiza Bunge induced apoptosis in HL60 human premyelocytic leukemia cell line,” J Ethnopharmacol, Vol. 68, pp. 121-127（1999）.
Yu, W. G., and Xu, L. N., “Effect of acetylsalvianolic acid A on platelet function,” Acta Pharmaceutica Sinica, Vol. 29, pp. 412-416（1994）.
Zhao, B. L., Jiang, W., Zhao, Y., Hou, J. W., and Xin, W. J., “Scavenging effects of salvia miltiorrhiza on free radicals and its protection for myocardial mitochondrial membranes from ischemia-reperfusion injury,” Biochem Mol Biol Int, Vol. 38, pp. 1171-1182（1996）.
Zhao, D., Fu, C. X., Chen, Y., and Ma, F. S., “Transformation of Saussurea medusa for hairy roots and jaceosidin production,” Plant Cell Rep, Vol. 23, pp. 468-474（2004）.
Zhao, G. R., Zhang, H. M., Ye, T. X., Xiang, Z. J., Yuan, Y. J., Guo, Z. X., and Zhao, L. B., “Characterization of the radical scavenging and antioxidant activities of danshensu and salvianolic acid B,” Food and Chemical Toxicology, Vol. 46, pp. 73-81（2008）.
Zhou, Z., Wang, S. Q., Liu, Y., and Miao, A. D., “Cryptotanshinone inhibits endothelin-1 expression and stimulates nitric oxide production in human vascular endothelial cells,” Biochimica et Biophysica Acta, Vol. 1760, pp. 1-9（2006）.