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Chemistry of Lithium Enolates

$312,884R01FY2012GMNIH

Cornell University, Ithaca NY

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Abstract

DESCRIPTION (provided by applicant): Project Summary/Abstract Lithium enolates constitute one of he most important classes of reactive intermediate in organic synthesis. The pharmaceutical industry uses these reagents frequently and on very large scales. In this proposal we describe efforts to understand the underlying chemistry of the most important reactions of lithium enolates. With methods to establish solution structures that dominated the first funding period largely developed, structural studies will be more targeted in support of mechanistic studies. In the most general sense, we will examine how solvation and aggregation influence reactivity. The mechanistic investigations will focus on specific classes of reaction-case studies-that include: (1) aza-aldol condensations; (2) O-silylations; (3) alkylations; (4) acylations; (5) [2,3]- and [3,3]-sigmatropic rearrangements; and (6) nucleophilic aromatic substitutions (SNAr). A uniquely integrated approach based on a combination of NMR spectroscopy, solution kinetics, and computational chemistry will develop an understanding of the mechanistic principles and how to control reactivity and selectivity. By bringing synthetic organic, physical organic, analytical, and computational chemistry together under one roof, we reveal the consequences of solvation and aggregation with an unprecedented clarity. PUBLIC HEALTH RELEVANCE: Project Narrative Lithium enolates are reactive intermediates used by other academic and pharmaceutical process chemistry laboratories on a daily basis around the globe. Our mechanistic studies described herein are designed to understand and improve their efficacy. The project originated from collaboration with Sanofi-Aventis to develop anti-asthmatics. The proposed funding period includes a collaboration with Amgen as part of their program to synthesize treatments for colorectal cancer.

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