A Model for Double Asymmetric Induction in the Stereocontrolled Reduction of Glycosyl α-Ketoesters with Oxazaborolidines

Experimental diastereoselectivities for the stereocontrolled reduction of glycosyl α-ketoesters into the corresponding α-hydroxyesters have recently been reported with unexpected results. The process is catalyzed by a chiral oxazaborolidine derivative (the so-called CBS catalyst) and represents the...

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Veröffentlicht in:Journal of the American Chemical Society 2004-06, Vol.126 (22), p.6996-7008
Hauptverfasser: Harb, W, Ruiz-López, M. F, Coutrot, F, Grison, C, Coutrot, P
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Sprache:eng
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Zusammenfassung:Experimental diastereoselectivities for the stereocontrolled reduction of glycosyl α-ketoesters into the corresponding α-hydroxyesters have recently been reported with unexpected results. The process is catalyzed by a chiral oxazaborolidine derivative (the so-called CBS catalyst) and represents the key step in the synthesis of glycosyl α-amino acids synthons, a class of compounds that allow preparation of natural glycopeptides analogues exhibiting potential therapeutic relevance. Good to very good diastereomeric excesses have been obtained for a series of reactions with different glucidic derivatives, but surprisingly, the major product obtained does not correspond to that predicted by using Corey's model. In the present work, we carry out a theoretical investigation of these reactions at the density functional level. Separated effects from the catalyst and from the glucidic derivative have been computed to rationalize the observed diastereoselectivities and the double asymmetric induction.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja031778y