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Biocatalytic C–H oxidation meets radical cross-coupling: Simplifying complex piperidine synthesis
Science ( IF 44.7 ) Pub Date : 2024-12-19 , DOI: 10.1126/science.adr9368 Jiayan He, Kenta Yokoi, Breanna Wixted, Benxiang Zhang, Yu Kawamata, Hans Renata, Phil S. Baran
Science ( IF 44.7 ) Pub Date : 2024-12-19 , DOI: 10.1126/science.adr9368 Jiayan He, Kenta Yokoi, Breanna Wixted, Benxiang Zhang, Yu Kawamata, Hans Renata, Phil S. Baran
Modern medicinal chemists are targeting more complex molecules to address challenging biological targets, which leads to synthesizing structures with higher sp 3 character (Fsp 3 ) to enhance specificity as well as physiochemical properties. Although traditional flat, high-fraction sp 2 molecules, such as pyridine, can be decorated through electrophilic aromatic substitution and palladium (Pd)–based cross-couplings, general strategies to derivatize three-dimensional (3D) saturated molecules are far less developed. In this work, we present an approach for the rapid, modular, enantiospecific, and diastereoselective functionalization of piperidine (saturated analog of pyridine), combining robust biocatalytic carbon-hydrogen oxidation with radical cross-coupling. This combination is directly analogous to electrophilic aromatic substitution followed by Pd-couplings for flat molecules, streamlining synthesis of 3D molecules. This study offers a generalizable strategy for accessing complex architectures, appealing to both medicinal and process chemists.
更新日期:2024-12-19
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