1. Quaternary Chiral Center via Diastereoselective Enolate Amination Enables the Synthesis of an Anti-inflammatory Agent
- Author
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Mathew Yates, Pat N. Confalone, Robert E. Waltermire, Silvio Campagna, Scott A. Savage, Robert Wethman, David J. Meloni, and Nicholas A. Magnus
- Subjects
chemistry.chemical_compound ,chemistry ,Reaction calorimeter ,Reaction sequence ,Amide ,Organic Chemistry ,Diastereomer ,Organic chemistry ,Ether ,Alcohol ,Physical and Theoretical Chemistry ,Amino acid residue ,Amination - Abstract
The d-leucine amino acid residue necessary for the synthesis of BMS-561392, 1, was employed as a chiral directing group for a diastereoselective enolate amination to establish the quaternary chiral center. Enhanced diastereomeric ratios were observed while conducting the enolate amination with 1-chloro-1-nitrosocyclopentane 6 in the presence of LiCl. Analogies are drawn between known tertiary amide amino alcohol chiral auxiliaries which have been used to effect diastereoselective enolate alkylations and aminations. Once the stereochemical features of 1 were established, an efficient reaction sequence was devised to complete its synthesis. During the course of this research, accelerated reaction calorimetry (ARC) data substantiated that the aminating agent 1-chloro-1-nitrosocyclopentane 6 was not safe to use as a neat compound. Consequently, a preparation and use of 6 as a stock solution in methyl tert-butyl ether (MTBE) was developed that rendered it safe for use.
- Published
- 2009
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