簡易檢索 / 詳目顯示

回結果列表
研究生: 鍾佑強
CHUNG YU-CHIANG
論文名稱: 高鏡像選擇性銠(I)/掌性雙烯配體催化芳香基硼酸對反丁烯二酸酯進行不對稱1,4加成反應及其合成應用 -α2腎上腺素受體拮抗劑全合成 -氮-苄基-3-苯基吡咯啶的不對稱合成
指導教授: 吳學亮
Wu, Hsyueh-Liang
學位類別: 碩士
Master
系所名稱: 化學系
Department of Chemistry
論文出版年: 2011
畢業學年度: 99
語文別: 中文
論文頁數: 247
中文關鍵詞: 反丁烯二酸酯不對稱1,4-加成
英文關鍵詞: rhodium, fumarate, asymmetric 1,4-addition
論文種類: 學術論文
相關次數: 點閱:162下載:6
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

    • 利用天然物左旋醋酸冰片酯49合成高穩定性的掌性雙環[2.2.1]雙烯配體,並結合銠(I)催化芳香基硼酸對反丁烯二酸酯進行不對稱1,4-加成反應。在這個催化系統中,銠(I) (1mol% of Rh)催化量和掌性雙烯配體進行不對稱1,4-加成反應,產物具有高產率和高立體選擇性(高達>99.5% ee值)。並將其應用在合成掌性3-(2-甲氧基)苯基吡咯啶(α2 -腎上腺素受體拮抗劑)和合成掌性氮-苄基-3-苯基吡咯啶。

    A new set of stable chiral bicyclo[2.2.1] diene ligands were prepared from (-)-bornyl acetate 49, and were employed in the rhodium(I)-catalyzed asymmetric 1,4-addition of arylboronic acids to fumarates. In this catalytic system, rhodium-diene complex (1.0 mol%) generated in situ from chiral diene 53a and [RhCl(C2H4)2]2 successfully yielded the corresponding adducts with good to excellent chemical yields and excellent levels of enantioselectivities (up to >99.5% ee). This methodology was demonstrated by its utilization in the enantioselective total synthesis of 3-(2-methoxyphenyl)pyrrolidine (an α2-adrenoceptor antagonist) and asymmetric synthesis of N-benzyl-3-phenylpyrrolidine.

    第一章 緒論..................... 1 第二章 文獻回顧................... 6 第三章 設計理念.................. . 15 第四章 實驗結果與討論................ 19 4-1 製備掌性[2.2.1]雙烯配體.............. 19 4-2 銠(I)金屬結合掌性配體催化不對稱 1,4-加成在 Fumaric 化合 物.......................... 20 4-2-1 改變加料順序及配位時間.............. 21 4-2-2、調整銠(I)催化量................. 23 4-2-3、改變配體上的芳香族官能基............ 24 4-2-4、溶劑效應................... 26 4-2-5、鹼效應..................... 28 4-2-6、最好條件下調整銠(I)催化量............ 29 4-2-7、底物例子(Substrate Scope) ............ 29 4-2-8、X-ray 繞射結構圖及預測立體化學路徑...... 32 第五章 合成與應用............... 36 5-1、前言.................... 36 5-2 文獻回顧................... 36 5-3、合成與應用................... 39 第六章 實驗步驟................. . 43 參考文獻....................... 93 附錄

    1. Calne, D. B.; Sandler, M., Nature 1970, 226, 21-24.
    2. Seyden-Penne, J., Chiral auxiliaries and ligands in asymmetric synthesis. Wiley
    New York: 1995.
    3. Triem, G., Chem. Ber. 1938, 71, 1522.
    4. (a) Betti, M. M., M., Chem. Ber. 1908, 41, 2071; (b) Wheeler, G. P.; Ingersoll, A.
    W., J. Am. Chem. Soc. 1951, 73, 4604-4606.
    5. Kawasaki, T.; Jo, K.; Igarashi, H.; Sato, I.; Nagano, M.; Koshima, H.; Soai, K.,
    Angew. Chem. Int. Ed. 2005, 44, 2774-2777.
    6. Blaser, H. U., Chem. Rev. 1992, 92, 935-952.
    7. (a) Ojima, I., Catalytic asymmetric synthesis. Wiley: 2010; (b) Jacobsen, E. N.;
    Pfaltz, A.; Yamamoto, H., Comprehensive asymmetric catalysis: Supplement.
    Springer Verlag: 2004; (c) Lin, G. Q.; Li, Y. M.; Chan, A. S. C., Principles and
    applications of asymmetric synthesis. Wiley Online Library: 2001.
    8. Sakai, M.; Hayashi, H.; Miyaura, N., Organometallics 1997, 16, 4229-4231.
    9. Takaya, Y.; Ogasawara, M.; Hayashi, T.; Sakai, M.; Miyaura, N., J. Am. Chem.
    Soc. 1998, 120, 5579-5580.
    10. Hayashi, T.; Ueyama, K.; Tokunaga, N.; Yoshida, K., J. Am. Chem. Soc. 2003,
    125, 11508-11509.
    11. (a) Stone, F. G. A.; Wilkinson, G., Comprehensive Organometallic Chemistry II;
    Pergamon: Oxford 1995, Vols.1-14; (b) Paiaro, G.; Panunzi, A.; De Henzi, A.,
    Tetrahedron Lett. 1966, 7, 3905-3908; (c) Panunzi, A.; De Renzi, A.; Paiaro, G.,
    Inorg. Chim. Acta 1967, 1, 475-478.
    12. Shintani, R.; Ueyama, K.; Yamada, I.; Hayashi, T., Org. Lett. 2004, 6,
    3425-3427.
    13. Sibi, M. P.; Liu, P.; Ji, J.; Hajra, S.; Chen, J.-X., J. Org. Chem. 2002, 67,
    1738-1745.
    14. (a) Fagnou, K.; Lautens, M., Chem. Rev. 2002, 103, 169-196; (b) Hayashi, T.;
    Yamasaki, K., Chem. Rev. 2003, 103, 2829-2844.
    15. Takaya, H.; Mashima, K.; Koyano, K.; Yagi, M.; Kumobayashi, H.; Taketomi, T.;
    Akutagawa, S.; Noyori, R., J. Org. Chem. 1986, 51, 629-635.
    16. Saito, T.; Yokozawa, T.; Ishizaki, T.; Moroi, T.; Sayo, N.; Miura, T.;
    Kumobayashi, H., Adv. Synth. Catal. 2001, 343, 264-267.
    17. Shi, Q.; Xu, L.; Li, X.; Jia, X.; Wang, R.; Au-Yeung, T. T. L.; Chan, A. S. C.;
    Hayashi, T.; Cao, R.; Hong, M., Tetrahedron Lett. 2003, 44, 6505-6508.
    18. Boiteau, J.-G.; Minnaard, A. J.; Feringa, B. L., J. Org. Chem. 2003, 68,
    9481-9484. 94

    19. Curtin, M. L.; Garland, R. B.; Heyman, H. R.; Frey, R. R.; Michaelides, M. R.;
    Li, J.; Pease, L. J.; Glaser, K. B.; Marcotte, P. A.; Davidsen, S. K., Bioorg. Med.
    Chem. Lett. 2002, 12, 2919-2923.
    20. Tokunaga, N.; Otomaru, Y.; Okamoto, K.; Ueyama, K.; Shintani, R.; Hayashi, T.,
    J. Am. Chem. Soc. 2004, 126, 13584-13585.
    21. Paquin, J.-F.; Stephenson, C. R. J.; Defieber, C.; Carreira, E. M., Org. Lett. 2005,
    7, 3821-3824.
    22. Defieber, C.; Paquin, J.-F.; Serna, S.; Carreira, E. M., Org. Lett. 2004, 6,
    3873-3876.
    23. (a) Wang, Z.-Q.; Feng, C.-G.; Xu, M.-H.; Lin, G.-Q., J. Am. Chem. Soc. 2007,
    129, 5336-5337; (b) Li, Q.; Yu, Z.-X., Angew. Chem. Int. Ed. 2011, 50,
    2144-2147; (c) Okamoto, K.; Hayashi, T.; Rawal, V. H., Chem. Commun. 2009,
    4815-4817; (d) Shintani, R.; Takeda, M.; Nishimura, T.; Hayashi, T., Angew.
    Chem. Int. Ed. 2010, 49, 3969-3971; (e) Li, Q.; Dong, Z.; Yu, Z.-X., Org. Lett.
    2011, 13, 1122-1125.
    24. Uozumi, Y.; Sang-Yong, L.; Hayashi, T., Tetrahedron Lett. 1992, 33, 7185-7188.
    25. Leonard, N. J.; Boyer, J. H., J. Org. Chem. 1950, 15, 42-45.
    26. (a) Lemke, K.; Ballschuh, S.; Kunath, A.; Theil, F., Tetrahedron: Asymmetry
    1997, 8, 2051-2055; (b) Zhong, Y.-w.; Lei, X.-s.; Lin, G.-q., Tetrahedron:
    Asymmetry 2002, 13, 2251-2255; (c) Feng, C.-G.; Wang, Z.-Q.; Tian, P.; Xu,
    M.-H.; Lin, G.-Q., Chem. Asian J. 2008, 3, 1511-1516.
    27. Allen, M. S.; Darby, N.; Salisbury, P.; Sigurdson, E. R.; Money, T., Can. J. Chem.
    1979, 57, 733-741.
    28. Comins, D. L.; Dehghani, A., Tetrahedron Lett. 1992, 33, 6299-6302.
    29. Brock, S.; Hose, D. R. J.; Moseley, J. D.; Parker, A. J.; Patel, I.; Williams, A. J.,
    Org. Process Res. Dev. 2008, 12, 496-502.
    30. Gendrineau, T.; Chuzel, O.; Eijsberg, H.; Genet, J.-P.; Darses, S., Angew. Chem.
    Int. Ed. 2008, 47, 7669-7672.
    31. Brown, M. K.; Corey, E. J., Org. Lett. 2009, 12 (1), 172-175.
    32. (a) Blobel, C. P., Nat Rev Mol Cell Biol 2005, 6, 32-43; (b) Janes, P. W.; Saha, N.;
    Barton, W. A.; Kolev, M. V.; Wimmer-Kleikamp, S. H.; Nievergall, E.; Blobel, C.
    P.; Himanen, J.-P.; Lackmann, M.; Nikolov, D. B., Cell 2005, 123, 291-304; (c)
    Wolfsberg, T. G.; Primakoff, P.; Myles, D. G.; White, J. M., The Journal of Cell
    Biology 1995, 131, 275-278; (d) Yamamoto, S.; Higuchi, Y.; Yoshiyama, K.;
    Shimizu, E.; Kataoka, M.; Hijiya, N.; Matsuura, K., Immunology Today 1999, 20,
    278-284; (e) White, J. M., Current Opinion in Cell Biology 2003, 15, 598-606;
    (f)Klein, T.; Bischoff, R., Journal of Proteome Research 2010, 10, 17-33.
    33. (a) Roy A. Black, Charles T. Rauch, Carl J. Kozlosky, Jacques J. Peschon, 95

    Jennifer L. Slack, Martin F. Wolfson, Beverly J. Castner, Kim L. Stocking,
    Pranitha Reddy, Subhashini Srinivasan, Nicole Nelson, Norman Boiani, Kenneth
    A. Schooley, Mary Gerhart, Raymond Davis, Jeffrey N. Fitzner, Richard
    S. Johnson, Raymond J. Paxton, Carl J. March , Douglas Pat Cerretti, Nature
    1997, 385, 729-733; (b) Marcia L. Moss, S.-L. Catherine Jin, Marcos E. Milla,
    William Burkhart, H. Luke Carter, Wen-Ji Chen, William C. Clay, John
    R. Didsbury, Daniel Hassler, Christine R. Hoffman, Thomas A. Kost, Millard
    H. Lambert, M. Anthony Leesnitzer, Philip McCauley, Gerard McGeehan,
    Justin Mitchell, Mary Moyer, Gregory Pahel, Warren Rocque, Laurie K. Overton,
    Frank Schoenen, Theresa Seaton, Jui-Lan Su, Janet Warner, Derril Willard & J.
    David Becherer, Nature 1997, 385, 733-736.
    34. (a) Hurtado, A.; Holmes, K. A.; Geistlinger, T. R.; Hutcheson, I. R.; Nicholson, R.
    I.; Brown, M.; Jiang, J.; Howat, W. J.; Ali, S.; Carroll, J. S., Nature 2008, 456,
    663-666; (b) Olayioye, M., Breast Cancer Res 2001, 3, 385 - 389.
    35. Purves, D.; Augustine, G. J.; Fitzpatrick, D.; Katz, L. C.; Katz, L.; Coquery, J.
    M.; LaMantia, A. S.; McNamara, J. O.; Williams, M. S., Neurosciences: Avec
    CD-Rom Sylvius. Le systeme nerveux humain. De Boeck Universite: 2004.
    36. Yao, W.; Zhuo, J.; Burns, D. M.; Xu, M.; Zhang, C.; Li, Y.-L.; Qian, D.-Q.; He,
    C.; Weng, L.; Shi, E.; Lin, Q.; Agrios, C.; Burn, T. C.; Caulder, E.; Covington, M.
    B.; Fridman, J. S.; Friedman, S.; Katiyar, K.; Hollis, G.; Li, Y.; Liu, C.; Liu, X.;
    Marando, A.; Newton, R.; Pan, M.; Scherle, P.; Taylor, N.; Vaddi, K.; Wasserman,
    Z. R.; Wynn, R.; Yeleswaram, S.; Jalluri, R.; Bower, M.; Zhou, B.-B.; Metcalf,
    B., J. Med. Chem. 2007, 50, 603-606.
    37. Jincong Zhuo, David M. Burns, Colin Zhang, Meizhong Xu, Lingkai Weng,
    Ding-Quan Qian, Chunhong He, Qiyan Lin, Yun-Long Li, Eric Shi, Costas
    Agrios, Brian Metcalf, Wenqing Yao, Synlett 2007, 460-464
    38. M. P. Seiler; J. Nozulak, WO 2001055132.
    39. Shintani, R.; Duan, W.-L.; Nagano, T.; Okada, A.; Hayashi, T., Angew. Chem. Int.
    Ed. 2005, 44, 4611-4614.
    40. Guzikowski, A. P.; Tamiz, A. P.; Acosta-Burruel, M.; Hong-Bae, S.; Cai, S. X.;
    Hawkinson, J. E.; Keana, J. F. W.; Kesten, S. R.; Shipp, C. T.; Tran, M.;
    Whittemore, E. R.; Woodward, R. M.; Wright, J. L.; Zhou, Z.-L., J. Med. Chem.
    2000, 43, 984-994.
    41. Dingemans, T. J.; Murthy, N. S.; Samulski, E. T., The Journal of Physical
    Chemistry B 2001, 105, 8845-8860.
    42. Geny, A.; Agenet, N.; Iannazzo, L.; Malacria, M.; Aubert, C.; Gandon, V., Angew.
    Chem. Int. Ed. 2009, 48, 1810-1813.
    43. Agami,C.; Couty, F.; Evano, G., Eur. J. Org. Chem. 2002, 29-38.
    44. Roussi, G.; Zhang, J., Tetrahedron, 1991, 47, 5161-5172.

    下載圖示
    QR CODE