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Abstract
We have developed a chiral amine catalyzed enantioselective α-alkylation of aldehydes with amino acid derived pyridinium salts as alkylating reagents. The reaction proceeds in the presence of visible light (390 nm) and in the absence of a photocatalyst via a light activated charge-transfer complex. We apply this photochemical stereoconvergent process to the total synthesis of the lignan natural products (–)-enterolactone and (–)-enterodiol. Mechanistic studies support the ground-state complex-ation of the reactive components followed by divergent charge-transfer processes involving catalyst-controlled radical chain and in-cage radical recombination steps.
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Title
Tambar Lab
Description
The Tambar Lab at UT Southwestern Medical Center is interested in three general areas of research. We develop new catalytic reactions, with a focus on enantioselective transformations. We synthesize complex biologically active natural products with unique structural features and biological properties. We integrate our work in these two areas into medicinal chemistry collaborations for discovery and development of novel therapeutic agents.
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