Tang Zhuo, Jiang Fan, Cui Xin, Gong Liu-Zhu, Mi Ai-Qiao, Jiang Yao-Zhong, Wu Yun-Dong
Key Laboratory for Asymmetric Synthesis and Chirotechnology of Sichuan Province, Chengdu Institute of Organic Chemistry, Chinese Academy of Sciences, Chengdu 610041, China.
Proc Natl Acad Sci U S A. 2004 Apr 20;101(16):5755-60. doi: 10.1073/pnas.0307176101. Epub 2004 Apr 12.
l-Prolinamides 2, prepared from l-proline and simple aliphatic and aromatic amines, have been found to be active catalysts for the direct aldol reaction of 4-nitrobenzaldehyde with neat acetone at room temperature. They give moderate enantioselectivities of up to 46% enantiomeric excess (ee). The enantioselectivity increases as the amide N-H becomes a better hydrogen bond donor. l-Prolinamides 3, derived from the reaction of l-proline with alpha,beta-hydroxyamines such that there is a terminal hydroxyl group, show more efficient catalysis and higher enantioselectivities. In particular, catalyst 3h, prepared from l-proline and (1S,2S)-diphenyl-2-aminoethanol, exhibits high enantioselectivities of up to 93% ee for aromatic aldehydes and up to >99% ee for aliphatic aldehydes under -25 degrees C. Model reactions of benzaldehyde with three enamines derived from the condensation of prolinamides with acetone have been studied by quantum mechanics calculations. The calculations reveal that the amide N-H and the terminal hydroxyl groups form hydrogen bonds with the benzaldehyde substrate. These hydrogen bonds reduce the activation energy and cause high enantioselectivity. Our results suggest a new strategy in the design of new organic catalysts for direct asymmetric aldol reactions and related transformations.
由L-脯氨酸与简单脂肪族和芳香族胺制备的L-脯氨酰胺2已被发现是4-硝基苯甲醛与纯丙酮在室温下直接羟醛反应的活性催化剂。它们能给出高达46%对映体过量(ee)的中等对映选择性。随着酰胺N-H成为更好的氢键供体,对映选择性增加。由L-脯氨酸与α,β-羟基胺反应得到的带有末端羟基的L-脯氨酰胺3表现出更高效的催化作用和更高的对映选择性。特别地,由L-脯氨酸和(1S,2S)-二苯基-2-氨基乙醇制备的催化剂3h在-25℃下对芳香醛表现出高达93% ee的高对映选择性,对脂肪醛表现出高达>99% ee的高对映选择性。通过量子力学计算研究了苯甲醛与由脯氨酰胺与丙酮缩合得到的三种烯胺的模型反应。计算结果表明,酰胺N-H和末端羟基与苯甲醛底物形成氢键。这些氢键降低了活化能并导致高对映选择性。我们的结果为直接不对称羟醛反应及相关转化的新型有机催化剂设计提供了一种新策略。