Hajos-Parrish-Eder-Sauer-Wiechert process

After development of the proline-catalyzed intermolecular aldol reaction by List, Lemer and Barbas in 2000 [16], which led to intense world-wide investigation, List himself developed a further intramolecular proline catalyzed cyclization which was enol-exo in nature as opposed to the enol-endo type cyclization of the Hajos-Parrish-Eder-Sauer-Wiechert process (Scheme 1.15). A range of substrates were applied using the methodology and excellent enantioselectivities were obtained [17]. 

S.C. PanandB. List s paper spans the whole field of current organocat-alysts discussing Lewis and Brpnsted basic and acidic catalysts. Starting from the development of proline-mediated enamine catalysis— the Hajos-Parrish-Eder-Sauer-Wiechert reaction is an intramolecular transformation involving enamine catalysis—into an intermolecular process with various electrophilic reaction partners as a means to access cY-functionalized aldehydes, they discuss a straightforward classification of organocatalysts and expands on Brpnsted acid-mediated transformations, and describe the development of asymmetric counteranion-directed catalysis (ACDC). 

The Hajos-Parrish-Eder-Sauer-Wiechert synthesis (Scheme 5) was the first example of an intramolecular proline-catalyzed asymmetric aldol reaction. Systematically, this reaction can be described as a 6-enolendo cyclization. In 2003, List et al. described the first example of an intramolecular enolexo aldolization 85). This approach was then used by Pearson and Mans for the synthesis of (-i-)-cocaine 92, starting from the weso-dialdehyde 90 on treatment with (S)-12 86). This desymmetrization process gave 91 as a mixture of epimers with good enantio-selectivity. The tropane skeleton 91 could be further transformed into +)-92 by conventional means (Scheme 21). 

Covalent strategy enamine catalysis Intramolecular process Hajos-Parrish-Eder-Sauer-Wiechert reaction... 

The term aminocatalysis has been coined [4] to designate reactions catalyzed by secondary and primary amines, taking place via enamine and iminium ion intermediates. The field of asymmetric aminocatalysis, initiated both by Hajos and Parrish [5] and by Eder, Sauer, and Wiechert [6] in 1971, has experienced a tremendous renaissance in the past decade [7], triggered by the simultaneous discovery of proline-catalyzed intermolecular aldol [8] and Mannich [9] reactions and of asymmetric Diels-Alder reactions catalyzed by chiral imidazolidinones [10]. Asymmetric enamine and iminium catalysis have been influential in creating the field of asymmetric organocatalysis [11], and probably for this reason aminocatalytic processes have been the object of the majority of mechanistic smdies in organocatalysis. 

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