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化学进展 2008, Vol. 20 Issue (11): 1675-1686 前一篇   后一篇

• 综述与评论 •

脯氨酸催化的不对称有机反应

郑欣 王永梅   

  1. 南开大学 南开大学
  • 收稿日期:2007-11-30 修回日期:2008-02-29 出版日期:2008-11-24 发布日期:2008-11-25
  • 通讯作者: 王永梅
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导出 被引次数 ( 42 | 3 )

Proline-Catalyzed Asymmetric Reactions

  • Received:2007-11-30 Revised:2008-02-29 Online:2008-11-24 Published:2008-11-25
脯氨酸作为一种结构简单、商品化的、廉价小分子手性催化剂,在多种不对称催化反应中表现出非常好的催化性能,本文综述了近年来脯氨酸直接催化的不对称有机反应涉及Aldol反应,Mannich反应,Michael反应,Diels-Alder反应,直接α-胺化反应,α-氧胺化反应,Baylis-Hillman反应,还原反应和氧化反应的进展并展望了其应用前景。
关键词: 脯氨酸, 催化, 不对称反应
Proline has been gradually recognized as a simple , commercial and cheap chiral catalyst for many asymmetric reactions. The paper reviews recent advances in the development of direct proline-catalyzed asymmetric reactions including Aldol reaction, Mannich reaction, Michael reation, Diels-Alder reaction, direct α-amination reaction, α-oxo amination reaction, Baylis-Hillman reaction, reduction reaction and oxidation reaction. It also puts forward the future application of proline.
Key words: Proline, Catalysis, Asymmetric reaction

中图分类号: 

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[1 ] List B.Tetrahedron,2002 ,58: 5573 —5590
[2 ] Jarvo E R,Miller S J.Tetrahedron,2002 ,58: 2481 —2495
[3 ] List B.Synlett,2001 ,1675 —1686
[4 ] List B,Lerner R A,Barbas C F.J.Am.Chem.Soc.,2000 ,122: 2395 —2396
[5 ] Hajos Z G,Parrish D R.J.Org.Chem.,1974 ,39: 1615 —1621
[6 ] Hajos Z G,Parrish D R.GP2 102623,1971
[7 ] Eder U,Sauer G,Wiechert R.Angew.Chem.Int.Ed.,1971 ,10: 496 —497
[8 ] Eder U,Sauer G,Wiechert R.GP2 014757,1971
[9 ] Danishefsky S J,Masters J J,Young W B,etal.J.Am.Chem.Soc.,1996 ,118: 2843 —2859
[10 ] Agami C,Platzer N,Sevedtre H.Bulletindela Societe Chimiquede France,1987 ,2: 358 —360
[11 ] Pidathala C,Hoang L,Vignola N,List B.Angew.Chem.Int.Ed.,2003 ,42: 2785 —2788
[12 ] Jung M E.Tetrahedron,1976 ,32: 3 —31
[13 ] List B,Hoang L,Martin H J,etal.Proceedings of the National Academy of Sciences of the United States of America,2004 ,101: 5839 —5842
[14 ] Agami C,Meynier F,Puchot C,etal.Tetrahedron,1984 ,40:1031 —1038
[15 ] Rajagopal D,Moni M S,Subramanian S,etal.Tetrahedron:Asymmetry,1999 ,10: 1631 —1634
[16 ] Bahmanyar S,Houk K N.J.Am.Chem.Soc.,2001 ,123: 12911 —12912
[17 ] Bahmanyar S,Houk K N.J.Am.Chem.Soc.,2001 ,123: 11273 —11283
[18 ] Clemente F R,Houk K N.Angew.Chem.Int.Ed.,2004 ,43: 5766 —5768
[19 ] Kotrusz P,Kmentova I,Gotov B,etal.Chem.Commun.,2002 ,2510 —2511
[20 ] Loh T P,Feng L C,Yang H Y,etal.Tetrahedron Lett.,2002 ,43: 8741 —8743
[21 ] List B,Pojarliev P,Castello C.Org.Lett.,2001 ,3: 573 —575
[22 ] Bogevig A,Kumaragurubaran N,Jorgensen K A.Chem.Commun.,2002 ,620 —621
[23 ] Bogevig A,Gothelf K V, Jorgensen K A.Chem. -Eur.J.,2002 ,8: 5652 —5661
[24 ] Tokuda O,Kano T,Maruoka K J,etal.Org.Lett.,2005 ,7: 5103 —5105
[25 ] Córdova A,Notz W,Barbas C F.Chem.Commun.,2002 ,3024 —3025
[26 ] Peng Y Y,Ding Q P,Cheng J P,etal.Tetrahedron Lett.,2003 ,44: 3871 —3875
[27 ] Chandrasekhar S,Narsihmulu C,Reddy N R,etal.Tetrahedron Lett.,2004 ,45: 4581 —4582
[28 ] Chandrasekhar S,Reddy N R,Sultana S S,etal.Tetrahedron,2006 ,62: 338 —345
[29 ] Nyberg A I,Usano A,Pihko P M.Synlett,2004 ,1891 —1896
[30 ] Benaglia M,Cinquini M,Cozzi F,etal.Adv.Synth.Catal.,2002 ,344: 533 —542
[31 ] Giacalone F,Gruttadauria M,Marculescu A M,etal.TetrahedronLett.,2007 ,48: 255 —259
[32 ] Zhong L,Xiao H L,Li C.J.Catal.,2006 ,243: 442 —445
[33 ] Sekiguchi Y,Sasaoka A,Kotsuki H,etal.Synlett,2003 ,1655 —1658
[34 ] Hayashi Y,Tsuboi W,Shoji M,etal.Tetrahedron Lett.,2004 ,45: 4353 —4356
[35 ] Zhou Y,Shan Z X.J.Org.Chem.,2006 ,71: 9510 —9512
[36 ] Pan Q B,Zou B L,Ma D W,etal.Org.Lett.,2004 ,6: 1009 —1012
[37 ] Bogevig A,Gothelf K V,Jorgensen K A.Chem -EurJ.,2002 ,8: 5652 —5661
[38 ] Bernard A M,Frongia A, Paris P P,etal.Org.Lett.,2007 ,9: 541 —544
[39 ] Cordova A,Notz W,Barbas C F. J.Org.Chem.,2002 ,67:301 —303
[40 ] Chowdari N S,Ramachary D B,Barbas C F,etal.Tetrahedron Lett.,2002 ,43:9591 —9595
[41 ] Northrup A B,MacMillan D W C.Science,2004 ,305:1752 —1755
[42 ] Northrup A B,MacMillan D W C.J.Am.Chem.Soc.,2002 ,124: 6798 —6799
[43 ] Mangion L K,Mac Millan D W C.J.Am.Chem.Soc.,2005 ,127: 3696 —3697
[44 ] Cordova A.Tetrahedron Lett.,2004 ,45: 3949 —3952
[45 ] Northrup A B,Mangion I K,Mac Millan D W C,etal.Angew.Chem.Int.Ed.,2004 ,43: 2152 —2154
[46 ] Chowdari N S,Ramachary D B,Barbas C F.Org.Lett.,2003 ,5:1685 —1688
[47 ] Zimmerman H E,Traxler M D.J.Am.Chem.Soc.,1952 ,79: 1920 —1923
[48 ] Clemente F R,Houk K N.Angew.Chem.Int.Ed.,2004 ,43: 5766 —5768
[49 ] Rankin K N,Gauld J W,Boyd R J.J.Phys.Chem.A,2002 ,106: 5155 —5159
[50 ] Yamasaki S,Iida T,Shibasaki M.Tetrahedron,1999 ,55: 8857 —8867
[51 ] List B.J.Am.Chem.Soc.,2000 ,122: 9336 —9337
[52 ] Notz W,Sakthivel K,Barbas C F,etal.Tetrahedron Lett.,2001 ,42: 199 —201
[53 ] List B,Pojarliev P,Biller W T,etal.J.Am.Chem.Soc.,2002 ,124: 827 —833
[54 ] Córdova A,Watanabe S,Barbas C F,etal.J.Am.Chem.Soc.,2002 ,124: 1866 —1867
[55 ] Notz W,Tanaka F,Watanabe S,etal.J.Org.Chem.,2003 ,68: 9624 —9634
[56 ] Córdova A,Barbas C F.Tetrahedron Lett.,2003 ,44: 1923 —1926
[57 ] Watanabe S,Crodova A,Barbas C F,etal.Org.Lett.,2002 ,4: 4519 —4522
[58 ] Chowdari N S,Ramachary D B,Barbas C F.Synlett,2003 ,1906 —1909
[59 ] Hayashi Y,Tsuboi W,Ashimine I,etal.Angew.Chem.Int.Ed.,2003 ,42: 3677 —3680
[60 ] Chowdari N S,Ramacharyd B,Barbas C F.Synlett,2003 ,12: 1906 —1909
[61 ] Hayashi Y,Tsuboi W,Shoji M,etal.J.Am.Chem.Soc.,2003 ,125: 11208 —11209
[62 ] Enders D,Grondal C,Vrettou M,etal.Angew.Chem.Int.Ed.,2005 ,44: 4079 —4083
[63 ] Westermann B,Neuhams C.Angew.Chem.Int.Ed.,2005 ,44: 4077 —4079
[64 ] Rodriguez B,Bolm C.J.Org.Chem.,2006 ,71: 2888 —2891
[65 ] Kantam M L,Rajasekhar C V,Gopikrishna G,etal.Tetrahedron Lett.,2006 ,47: 5965 —5967
[66 ] Fustero S,Jimenez D,Sanz Cervera J F,etal.Org.Lett.,2005 ,7: 3433 —3436
[67 ] Yamaguchi M,Shiraishi T,Minami T.J.Chem.Soc.Chem.Commun.,1991 ,1088 —1089
[68 ] Yamaguchi M,Shiraishi T,Hirama M.Angew.Chem.Int.Ed.,1993 ,32: 1176 —1178
[69 ] Yamaguchi M,Shiraishi T,Hirama M.J.Org.Chem.,1996 ,61: 3520 —3530
[70 ] Yamaguchi M,Igarashi Y,Reddy R S,etal.Tetrahedron,1997 ,53: 11223 —11236
[71 ] Hanessian S,Pham V.Org.Lett.,2000 ,2: 2975 —2978
[72 ] Kotrusz P,Toma T.Molecules,2006 ,11: 197 —205
[73 ] Kotrusz P,Toma S.Arkivoc,2006 ,100 —109
[74 ] Kozikowski A P,Mugrage B B.J.Org.Chem.,1989 ,54: 2275 —2277
[75 ] Hirai Y,Takashi T,Yamazaki T,etal.J.Chem.Soc.Perkin Trans.,1992 ,509 —516
[76 ] List B,Pojarliev P,Martin H J.Org.Lett.,2001 ,3: 2423 —2425
[77 ] Enders D,Seki A.Synlett,2002 ,26 —28
[78 ] Terakado D,Takano M,Oriyama T.Chem.Lett.,2005 ,34: 962 —963
[79 ] List B,Castello C.Synlett,2001 ,1687 —1689
[80 ] Kotrusz P,Toma S,Schmalz H G,etal.Eur.J.Org.Chem.,2004 ,1577 —1583
[81 ] Luo S Z,Mi X L,Cheng J P,etal.Angew.Chem.Int.Ed.,2006 ,45: 3093 —3097
[82 ] Waldmann H.J.Org.Chem.,1988 ,53:6133 —6136
[83 ] Asato A E,Watanabe C,Li X Y,etal.Tetrahedron Lett.,1992 ,33: 3105 —3108
[84 ] Ramachary D B,Chowdari N S,Barbas C F.Tetrahedron Lett.,2002 ,43: 6743 —6746
[85 ] Ramachary D B,Chowdari N S,Barbas C F.Angew.Chem.Int.Ed.,2003 ,42: 4233 —4237
[86 ] Sundén H,Ibrahem I,C Wrdova A,etal.Angew.Chem.Int.Ed.,2005 ,44: 4877 —4880
[87 ] Gowravaram S,Narjis F,Venkata E,etal.Adv.Synth.Catal.,2005 ,347: 1353 —1355
[88 ] Chandrasekhar S,Vijeender K,Reddy K V.TetrahedronLett.,2005 ,46: 6991 —6993
[89 ] Aznar F,Garcia A B,Cabal M P.Adv.Synth.Catal.,2006 ,348: 2443 —2448
[90 ] Northrup A B,MacMillan D W C.J.Am.Chem.Soc.,2002 ,124: 2458 —2460
[91 ] Notz W,Tanaka F,Barbas C F.Accounts of Chemical Research,2004 ,37: 580 —591
[92 ] List B.J.Am.Chem.Soc.,2002 ,124: 5656 —5657
[93 ] Bogevig A,Juhl K,J ?gensen K A,etal.Angew.Chem.Int.Ed.,2002 ,41: 1790 —1793
[94 ] Kumaragurubaran N,Juhl K,J ?gensen K A,etal.J.Am.Chem.Soc.,2002 ,124: 6254 —6255
[95 ] Baumann T,Vogt H,Br ?seS.Eur.J.Org.Chem.,2007 ,266 —282
[96 ] Vogt H,Vanderheiden S,Br ?se S.Chem.Commun.,2003 ,2448 —2449
[97 ] Brown S P,Brochu M P,MacMillan D W C,etal.J.Am.Chem.Soc.,2003 ,125: 10808 —10809
[98 ] Zhong G F.Angew.Chem.Int.Ed.,2003 ,42: 4247 —4250
[99 ] Hayashi Y,Yamaguchi J,Hibino K,etal.TetrahedronLett.,2003 ,44: 8293 —8296
[100 ] Hayashi Y,Yamaguchi J,Sumiya T,etal.J.Org.Chem.,2004 ,69: 5966 —5973
[101 ] Hayashi Y,Yamaguchi J,Sumiya T,etal.Angew.Chem.Int.Ed.,2004 ,43: 1112 —1115
[102 ] Bogevig A,Sunden H,C Wrdova A.Angew.Chem.Int.Ed.,2004 ,43: 1109 —1112
[103 ] Huang K,Huang Z Z,Li X L.J.Org.Chem.,2006 ,71: 8320 —8323
[104 ] Shi M,Jiang J K,Li C Q.Tetrahedron Lett.,2002 ,43: 127 —130
[105 ] Davies H J,Ruda A M,Tomkinson N C O.Tetrahedron Lett.,2007 ,48: 1461 —1464
[106 ] Chen S H,Hong B C,Su C F,etal.Tetrahedron Lett.,2005 ,46: 8899 —8903
[107 ] Tang H Y,Zhao G F,Zhou Z H,etal.Tetrahedron Lett.,2006 ,47: 5717 —5721
[108 ] Utsumi N,Zhang H L,Barbas  C F,etal.Angew.Chem.Int.Ed.,2007 ,46: 1878 —1880
[109 ] Tungler A,Fogassy G.Mol.J.Catal.A:Chem.,2001 ,173: 231 —247
[110 ] Umino N,Iwakuma T,Itoh N.Chem.Pharm.Bull.,1979 ,27: 1479 —1481
[111 ] Wallbaum S,Martens J.Tetrahedron Asymmetry,1992 ,3: 1475 —1504
[112 ] Ohta T,Nakahara S,Shigemura Y,etal.ChemistryLetters,1998 ,491 —492
[113 ] Levina A,Muzart J.Tetrahedron: Asymmetry,1995 ,6:147 —156
[114 ] Reddy K R,Rajasekhar C V,Ravindra A.Synthetic Commun.,2006 ,36: 3761 —3766
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摘要

脯氨酸催化的不对称有机反应