概括性
对映选择合成
组合化学
化学
选择性
基质(水族馆)
酶
蛋白质设计
底物特异性
反应性(心理学)
立体化学
合理设计
生物催化
立体异构
氨基酸
定向进化
纳米技术
人工酶
蛋白质工程
密度泛函理论
四肽
机制(生物学)
分子
手性(物理)
肽
作者
Kai Fu,Min Li,Zhiwei Deng,Yu Qin,Zhenbo Yuan,Dejing Yin,Chao Wang,Yan Zhang,Yijian Rao
标识
DOI:10.1038/s41467-026-68964-6
摘要
Precise three-dimensional arrangements of atoms and functional groups govern molecular reactivity and biological function, making stereocontrol a central goal in modern organic and medicinal chemistry. Yet reconciling broad substrate generality with high enantioselectivity remains a core limitation of enantioselective catalysis, motivating the pursuit of privileged chiral catalysts. Here we design a new-to-nature photoenzyme that unlocks enzymatic deracemization of structurally diverse allenes, an entropically disfavored process inaccessible to natural biocatalysts. Structure-guided design created substrate-specific interaction networks, delivering high enantioenrichment for axially chiral allenic carboxylic acids, esters, and amides via triplet energy transfer under aerobic conditions. X-ray crystal structures of enzyme-substrate complexes reveal tailored chiral pockets that accommodate distinct substrates and direct enantiocontrol, rationalizing the breadth and selectivity observed. This work reconciles generality with high selectivity on an enzymatic platform, establishes deracemization as an evolvable route to axially chiral molecules, and broadens activation strategies for stereochemical editing.
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