Issue 21, 2008

Unraveling high precision stereocontrol in a triple cascade organocatalytic reaction

Abstract

The mechanism and stereoselectivity in an organocatalyzed triple cascade reaction between an aldehyde, electron deficient olefin and an α,β-unsaturated aldehyde are investigated for the first time using density functional theory. The factors responsible for high levels of observed stereoselectivity (Enders et al., Nature, 2006, 441, 861) towards the generation of cyclohexene carbaldehyde with four contiguous stereocentres are unravelled. The triple cascade reaction, comprising a Michael, Michael and aldol sequence as the key elementary reactions, is studied by identifying the corresponding transition states for the stereoselective C–C bond-formation. In the first Michael addition step between the enamine (derived from the chiral catalyst and propanal) and nitrostyrene, energetically the most preferred mode of addition is found to be between the si-face of (E)-anti-enamine on the si-face of nitrostyrene. The addition of the si-face of the nitroalkane anion on the re-face of the iminium ion (formed between the enal and the catalyst) is the lowest energy pathway for the second Michael addition step. The high level of asymmetric induction is rationalized with the help of relative activation barriers associated with the competitive diastereomeric pathways. Interesting weak interactions, along with the steric effects offered by the bulky α-substituent on the pyrrolidine ring, are identified as critical to the stereoselectivity in this triple cascade reaction. The predicted stereoselectivities using computed energetics are found to be in perfect harmony with the experimental stereoselectivities.

Graphical abstract: Unraveling high precision stereocontrol in a triple cascade organocatalytic reaction

Supplementary files

Article information

Article type
Paper
Submitted
26 Jun 2008
Accepted
13 Aug 2008
First published
12 Sep 2008

Org. Biomol. Chem., 2008,6, 3921-3929

Unraveling high precision stereocontrol in a triple cascade organocatalytic reaction

C. B. Shinisha and R. B. Sunoj, Org. Biomol. Chem., 2008, 6, 3921 DOI: 10.1039/B810901J

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