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Nature-inspired catalytic asymmetric rearrangement of cyclopropylcarbinyl cation

Qinghua Li, Gui-Shan Zhang, Feng Wang, Yixin Cen, Xi‐Liang Liu, Jianwei Zhang, Yu‐Hui Wang, A. W. M. Lee, Dingding Gao, Guo‐Qiang Lin, Ping Tian

2023Science Advances18 citationsDOIOpen Access PDF

Abstract

In nature, cyclopropylcarbinyl cation is often involved in cationic cascade reactions catalyzed by natural enzymes to produce a great number of structurally diverse natural substances. However, mimicking this natural process with artificial organic catalysts remains a daunting challenge in synthetic chemistry. We report a small molecule–catalyzed asymmetric rearrangement of cyclopropylcarbinyl cations, leading to a series of chiral homoallylic sulfide products with good to excellent yields and enantioselectivities (up to 99% enantiomeric excess). In the presence of a chiral SPINOL-derived N -triflyl phosphoramide catalyst, the dehydration of prochiral cyclopropylcarbinols occurs rapidly to generate symmetrical cyclopropylcarbinyl cations, which are subsequently trapped by thione-containing nucleophiles. A subgram-scale experiment and multiple downstream transformations of the sulfide products are further pursued to demonstrate the synthetic utility. Notably, a few heteroaromatic sulfone derivatives could serve as “covalent warhead” in the enzymatic inhibition of severe acute respiratory syndrome coronavirus 2 main protease.

Topics & Concepts

NucleophileChemistryCatalysisCombinatorial chemistrySulfideCationic polymerizationEnantiomerSulfoneEnantiopure drugHydroaminationEnantioselective synthesisOrganic chemistryCyclopropane Reaction MechanismsSynthetic Organic Chemistry MethodsAsymmetric Synthesis and Catalysis
Nature-inspired catalytic asymmetric rearrangement of cyclopropylcarbinyl cation | Litcius