化学
联氨(抗抑郁剂)
羟胺
生物合成
组合化学
酶
基质(水族馆)
生物化学
立体化学
催化作用
三元运算
底物特异性
三元络合物
酶催化
有机化学
氨基酸
分子
定向进化
化学合成
作者
Guiyun Zhao,Huisi Huang,Yifan Li,Jianli Yang,Yuan‐Yang Guo,Liqiao Xu,Lu Wang,Jingkun Shi,Miaolian Wu,Feng Yu,Binju Wang,Zhimin Zhang,Yi‐Ling Du
摘要
-aminoacyl-hydroxylamine synthetase (aaHS) component of a bacterial hydrazine synthetase, captured in binary and ternary complexes with substrates and catalytic intermediates. These structures reveal the molecular determinants of substrate recognition and, together with biochemical and computational analyses, establish a detailed mechanistic framework for the hydrazine synthetase family. Leveraging these insights, we expanded hydrazine biosynthesis through the targeted discovery of novel hydrazine synthetases and implemented a chemoenzymatic synthesis strategy. This work provides fundamental insights into hydrazine synthetases and lays the groundwork for their rational engineering as versatile biocatalysts.
科研通智能强力驱动
Strongly Powered by AbleSci AI