A Highly Enantioselective Amino Acid-Catalyzed Route to Functionalized α-Amino Acids

Abstract

The development of syntheses providing enantiomerically pure α-amino acids has intrigued generations of chemists and been the subject of intense research. This report describes a general approach to functionalized α-amino acids based on catalytic asymmetric synthesis. Proline catalyzed Mannich-type reactions of N-PMP-protected α-imino ethyl glyoxylate with a variety of unmodified ketones to provide functionalized α-amino acids in high yields with excellent regio-, diastereo-, and enantioselectivities. Study of seven examples yielded six with product ee values of ≥99%. In reactions involving ketone donors where diastereoisomeric products could be formed, two adjacent stereogenic centers were created simultaneously upon carbon−carbon bond formation with complete syn-stereocontrol. Significantly, this methodology utilizes readily available and rather inexpensive starting materials, does not require any preactivation of substrates or metal ion assistance, and can be carried out on a gram scale under operationally simple reaction conditions. The keto-functionality present in the products provides a particularly attractive site for versatile modifications. This study compliments and extends our bioorganic approach to asymmetric synthesis to a versatile synthon class. Given that we have shown that a variety of optically active amino acids can be synthesized with proline catalysis, where an l-amino acid begets other l-amino acids, our results may stimulate thoughts concerning prebiotic syntheses of optically active amino acids based on this route.