化学
立体化学
生物合成
收缩(语法)
内酯
酶
级联
残留物(化学)
戒指(化学)
突变
氧化剂
裂解酶
分子
催化作用
生物化学
组合化学
氧化酶试验
双重角色
作者
Cuiping Li,Yuzhuang Fu,Lijie Zhu,Qunyan Jiang,Liang Gu,Yucheng Zhao,Ming‐Hua Yang,Lingyi Kong
摘要
Ring contraction represents a characteristic atom-level skeletal editing strategy in natural products. While this biosynthetic approach has garnered increasing attention, its role in modifying the lactone ring size remains underexplored. Here, we report a novel δ- to γ-lactone contraction during γ-alkylidenebutenolide biosynthesis in Aspergillus candidus . This dual-enzymatic cascade involves multifunctional oxidase PesD oxidizing a PKS-derived α-pyrone to a cyclic carbonate intermediate, followed by the DUF3237 enzyme PesF excising a molecule of CO 2 to achieve ring contraction─an unprecedented function for this enzyme family. Computational, crystallographic, and site-directed mutagenesis studies reveal that PesF employs a noncanonical acid–base mechanism, with Glu99 serving as a key catalytic residue that fulfills an unusual dual role.
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