2026-06-01 中国科学院(CAS)
<関連情報>
- https://english.cas.cn/newsroom/research-news/202606/t20260602_1160329.shtml
- https://www.nature.com/articles/s41557-026-02156-z
三重項ニトレンを介した環拡大による立体障害シクロブタンアミノニトリルのモジュール型ジアステレオ選択的合成 Modular diastereoselective synthesis of hindered cyclobutane amino nitriles through triplet nitrene-mediated ring expansion
Jun-Jie Yin,Su-Ge Xin,Hengyi Cao & Lumin Zhang
Nature Chemistry Published:01 June 2026
DOI:https://doi.org/10.1038/s41557-026-02156-z
Abstract
Cyclobutane amino nitriles (CBANs), as a class of sterically hindered α,α-disubstituted unnatural amino acid derivatives, have garnered notable interest in pharmaceutical research due to their capacity to enhance molecule potency, metabolic stability and selectivity. However, the advancement and exploration of the chemical space of CBANs are impeded by general synthetic strategies, particularly for sterically more hindered vicinal tetrasubstituted derivatives. Here we report the diastereoselective synthesis of congested CBANs using commercially available ketones or aldehydes through a modular and precise process. The key to this transformation involves harnessing the unique reactivity of triplet nitrene. This enables a diradical-mediated ring expansion of alkylidenecyclopropanes and is combined with a titanium(IV)-catalysed cyanylation step. The reaction, which is supported by experimental and computational mechanistic studies, readily delivers hindered vicinal mono- and di-substituted CBANs, along with spiro-fused architectures, showcasing substantial structural diversity. High functional-group compatibility, including with groups that are incompatible with traditional multi-step processes and are medicinally relevant, is also observed.
