Mannich bifunctional thiourea catalyzed

In 2010, Monge et al. reported a one-pot tandem reaction by combining bifunctional thiourea and Au complex [77], affording dihydropynole derivatives in moderate yields and high enantioselectivities. The reaction was based on a bifunctional thiourea-catalyzed Mannich-type reaction and a subsequent Au-catalyzed alkyne hydroamination and isomerization of propargylated malononitrile and N-Boc-protected imines (Scheme 9.72). Notably, acidic additive proved cracial to prevent deactivation of the gold catalyst and enhance the reactivity and selectivity. 

SCHEME 11.21 Bifunctional cinchona aUcaloid/thiourea-catalyzed asymmetric Mannich reaction. 

Jacobsen et al also synthesized bifunctional thiourea catalysts (Figure 2.17). Jacobsen et al. reported nitro-Mannich reaction catalyzed by a thiourea (10a) to give P-nitro amine in favor of the syn isomer with excellent enantioselectivity (Scheme 2.41) [94]. 

Later, the same group succeeded in achieving a cascade Michael/nitro-Mannich/ acetalization reaction by the combination of covalent enamine catalysis and noncovalent bifunctional base/Br0nsted acid catalysis [32]. The fuUy substituted piperidines with diverse substitution patterns were prepared efficiently starting from simple aliphatic aldehydes, Ts-protected imines, and trani -P-nitro alkenes (Scheme 9.36). This finding effectively incorporated prolinol silyl ether-catalyzed Michael addition of aldehyde 65 to nitroalkene 75 and valine-derived bifunctional thiourea-mediated nitro-Mannich reaction of y-nitro aldehyde 106 to imine 105 in the cascade process, providing a complementary contribution to the well-known single catalyst-promoted triple cascade reactions and two catalyst-promoted reaction cascades. 

Recently, the formation of Mannich products via reaction of lactones with a variety of Al-Boc-aldimines, catalyzed by the bifunctional rosin-derived amine thiourea eatalyst 66, was reported by the Wang group (Scheme 5.32) [43]. The formation of... 

The dual activation mode of the aforementioned cinchona alkaloid-derived thiourea catalysts proved to be highly effective in catalyzing the asynunetric Mannich reaction, among other transformations. These findings prompted the development of new, more simple bifunctional chiral catalysts that are predominately based on tra 5 -l,2-diaminocy-clohexane. For example, the application of the thiourea catalyst 120, which was developed by Takemoto and coworkers, afforded upon the reaction of Af-Boc-protected imines with diethyl malonate the desired chiral amines in good chemical yields (up to 91%) and enantioselectivities (98% ee) (Scheme 11.23) [81]. The catalytic mechanism presumably involves deprotonation and coordination of the active carbonyl compound by the chiral tertiary amine moiety. The formed enolate then attacks the si-face of the... 

SCHEME 11.22 Three-component direct asymmetric Mannich reaction catalyzed by a bifunctional quinidine thiourea catalyst. 

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