Amine catalysts, primary quinine-derived

Based on the experiences on the Diels-Alder reaction of 2-pyrones [20], Deng et al. have investigated the stereoselective Diels-Alder reaction of 2-pyrones and a,(3-unsaturated ketones. They also found that primary amines lo and lp derived from quinine and quinidine, respectively, werethe optimal iminium catalysts (5 mol%). The acid additive has a crucial effect on the efficiency of the reaction. TFA (20 mol%) gave the best results, and the Michael reaction, as a side reaction, could also be prohibited. 

Very recently, You and co-workers [21] have developed an elegant cascade FCA-Mannich process of indolyl enones to afford enantioenriched polycyclic indolines with the use of quinine-derived primary amine 6c as the catalyst (Scheme 9.7). Moreover, a-amino acid-derived 1,2-vicinal diamine 7 was proved to be efficient to catalyze the reaction of 4,7-dihydromdoles with a,p-unsaturated ketones [22]. 

S)-proline-catalyzed reaction is not sufficient therefore, a large number of (S)-proline-derived secondary amine catalysts have been developed. Primary amine catalysts derived from natural amino acids and cinchona alkaloids have also emerged as highly versatile and powerful catalysts [25]. For example, in the intramolecular 6-endo aldol reaction of diketone 43, quinine-derived primary amine 44 in acetic acid affords the cyclic ketone (S)-46 in 94% yield with 90% ee (Scheme 28.3) (S)-prohne gives the cycUzation product in low yield with moderate ee. In addition, the pseudo-enantiomeric quinidine-derived primary amine 45 deUvers the opposite product, the (R)-enantiomer 46, with similar yield and enantioselectivity [26]. 

An important contribution elucidating the potential of primary amines derived from Cinchona alkaloids has been the aldol cyclodehydration of achiral 4-substituted-2,6-heptanediones to enantiomerically enriched 5-substituted-3-methyl-2-cyclohexene-l-ones, presented by List and coworkers in 2008 (Scheme 14.26). Both 9-deo>y-9-amino-epr-quinine (QNA) and its pseudoenantiomeric, quinidine-derived amine QDA, in combination with acetic acid as cocatalyst, proved to be efficient and highly enantio-selective catalysts for this transformation, giving both enantiomers of 5-substituted-3-methyl-2-cyclohexene-l-ones with very good results. The authors observed that proline and the catalytic antibody 38C2 delivered poor enantioselectivity in this reaction. Furthermore, the synthetic utility of the reaction was exemplified by the first asymmetric synthesis of both... 

In 2007, the research groups of Chen and Deng [81] applied the primary amine derived from quinine as an outstanding catalyst for the addition of different nucleophiles to enones. Chen and Deng tested this catalyst in the conjugate addition of dicyanoolefins (44) to enones with excellent results (Scheme 33.28). Chen [82] then... 

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