Thiourea catalysis Strecker reactions

Scheme 6.99 Typical pyridyl- and imidazoyl-thioureas evaluated for bifunctional catalysis in the asymmetric Strecker reaction of aldimines.

Significant levels of syn diastereoselectivities (5 1 to 16 1) were observed for all substrates, with the exception of an ortho-chloro-substituted aryl imine, which provided only 2 1 syn selectivity. The catalyst was viable for a variety of nitroalkanes, and afforded adducts in uniformly high enantioselectivities (92-95% ee). The sense of enantiofacial selectivity in this reaction is identical to that reported for the thiourea-catalyzed Strecker (see Scheme 6.8) and Mannich (see Tables 6.18 and 6.22) reactions, suggesting a commonality in the mode of substrate activation. The asymmetric catalysis is likely to involve hydrogen bonding between the catalyst and the imine or the nitronate, or even dual activation of both substrates. The specific role of the 4 A MS powder in providing more reproducible results remains unclear, as the use of either 3 A or 5 A MS powder was reported to have a detrimental effect on both enantioselectivities and rates of reaction. 

Initial mechanistic analysis of the Strecker reaction catalyzed by a urea-based organocatalyst (Scheme 3.18) revealed that the catalytic activity is provided by the urea functionality of structurally complex catalyst 1. However, further studies revealed a bifunchonal character of urea and thiourea-based catalysts " as well as the possibility of multiple mechanistic pathways in catalysis of nucleophile-electrophile addition reactions. " Simplified but sufficiently effective (thio)urea catalysts 4a and 4b were used in the hydrocyanation reaction (Scheme 3.19) that was subjected to a combined experimental and computational study. °... 

Scheme 6.44 Reaction sequence for the synthesis of enantiopure (/ )-tert-leucine hydrochloride starting from the pivalaldimine Strecker adduct obtained under catalysis with polymer-bound thiourea 41.

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