Reports

Efficient Aldolase Catalytic Antibodies That Use the Enamine Mechanism of Natural Enzymes

Science  15 Dec 1995:
Vol. 270, Issue 5243, pp. 1797-1800
DOI: 10.1126/science.270.5243.1797

Abstract

Antibodies that catalyze the aldol reaction, a basic carbon-carbon bond-forming reaction, have been generated. The mechanism for antibody catalysis of this reaction mimics that used by natural class I aldolase enzymes. Immunization with a reactive compound covalently trapped a Lys residue in the binding pocket of the antibody by formation of a stable vinylogous amide. The reaction mechanism for the formation of the covalent antibody-hapten complex was recruited to catalyze the aldol reaction. The antibodies use the ε-amino group of Lys to form an enamine with ketone substrates and use this enamine as a nascent carbon nucleophile to attack the second substrate, an aldehyde, to form a new carbon-carbon bond. The antibodies control the diastereofacial selectivity of the reaction in both Cram-Felkin and anti-Cram-Felkin directions.

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