Enantioselective Synthesis of α-Aminoboronic Acid Derivatives via Copper-Catalyzed N-Alkylation

Creators: Zuccarello, Giuseppe; Batiste, Suzanne M.; Cho, Hyungdo; Fu, Gregory C.¹

1. California Institute of Technology

Abstract

Due to burgeoning interest in the pharmaceutical industry in exploiting optically active α-aminoboronic derivatives as bioisosteres of α-amino acid derivatives, the discovery of methods for their catalytic asymmetric synthesis is an important challenge. Herein, we establish that a chiral copper catalyst (generated in situ from commercially available components) can achieve the enantioselective synthesis of α-aminoboronic derivatives via the coupling of two readily available partners, a carbamate and a racemic α-chloroboronate ester. Furthermore, we describe mechanistic studies that played a key role in the development of this new method and that provide insight into the optimized process.

Additional Information

© 2023 American Chemical Society. Support has been provided by the National Institutes of Health (National Institute of General Medical Sciences; grants R35-GM145315 to G.C.F. and F32-GM131595 to S.M.B.), the Swiss National Science Foundation (Grant P2SKP2_191321 to G.Z.), the Korea Foundation for Advanced Studies (graduate research fellowship to H.C.), and the Dow Next-Generation Educator Fund (grant to Caltech). We thank Dr. Caiyou Chen, Dr. Jaika Dörfler, Dr. Asik Hossain, Christian M. Johansen, Dr. Carson D. Matier, Dr. Paul H. Oyala, Dr. Felix Schneck, Dr. Mona Shahgholi, Dr. Hidehiro Suematsu, Dr. Michael K. Takase, Xiaoyu Tong, Dr. David G. VanderVelde, Dr. Scott C. Virgil, Zhuoyan Wang, and Dr. Feng Zhong for assistance and helpful discussions. The authors declare no competing financial interest.

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