参与天然卤代腈生物合成的两种独特酶的结构和分子见解。

Chun-Chi Chen, Hao Li, Jian-Wen Huang, Rey-Ting Guo
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引用次数: 0

摘要

有机卤化合物具有广泛的生物活性和潜在用途。了解卤代化合物的天然生物合成途径并改进其生产已引起人们的极大关注。最近,一种蓝藻神经毒素(aetokthonotoxin)的生物合成途径被报道。它包含两种独特的酶:一种是单组分黄素依赖型卤化酶 AetF,另一种是新型硝基合成酶 AetD。本文将介绍最近报道的这些酶与其辅助因子和底物复合物的晶体结构。AetF 的结构揭示了三域结构、氢离子的转移方向、传递次卤酸的可能路径以及不寻常的双特异性底物识别模式。AetD 结构表明,腈的形成应该是通过二铁簇的作用发生的,这意味着该酶应该能够催化替代氨基酸的腈形成。这些信息对于了解这两种首创酶的作用机制和应用具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structural and molecular insights of two unique enzymes involved in the biosynthesis of a natural halogenated nitrile.

Organohalogen compounds exhibit wide-ranging bioactivities and potential applications. Understanding natural biosynthetic pathways and improving the production of halogenated compounds has garnered significant attention. Recently, the biosynthetic pathway of a cyanobacterial neurotoxin, aetokthonotoxin, was reported. It contains two unique enzymes: a single-component flavin-dependent halogenase AetF and a new type of nitril synthase AetD. The crystal structures of these enzymes in complex with their cofactors and substrates that were recently reported will be presented here. The AetF structures reveal a tri-domain architecture, the transfer direction of the hydride ion, a possible path to deliver the hypohalous acid, and the unusual bispecific substrate-recognition mode. The AetD structures demonstrate that the nitrile formation should occur through the action of a diiron cluster, implying that the enzyme should be capable of catalyzing the nitrile formation of alternative amino acids. This information is of central importance for understanding the mechanism of action as well as the applications of these two the-first-of-its-kind enzymes.

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