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莫匹罗星聚酮合酶α-羟基化双模块的结构与功能

Structure and Function of the α-Hydroxylation Bimodule of the Mupirocin Polyketide Synthase.

作者信息

Winter Ashley J, Khanizeman R Nisha, Barker-Mountford Abigail M C, Devine Andrew J, Wang Luoyi, Song Zhongshu, Davies Jonathan A, Race Paul R, Williams Christopher, Simpson Thomas J, Willis Christine L, Crump Matthew P

机构信息

School of Chemistry University of Bristol Bristol BS8 1TS UK.

Institute of Microbiology Chinese Academy of Sciences Beijing 100101 China.

出版信息

Angew Chem Weinheim Bergstr Ger. 2023 Nov 20;135(47):e202312514. doi: 10.1002/ange.202312514. Epub 2023 Oct 16.

DOI:10.1002/ange.202312514
PMID:38515435
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10952193/
Abstract

Mupirocin is a clinically important antibiotic produced by a -AT Type I polyketide synthase (PKS) in . The major bioactive metabolite, pseudomonic acid A (PA-A), is assembled on a tetrasubstituted tetrahydropyran (THP) core incorporating a 6-hydroxy group proposed to be introduced by α-hydroxylation of the thioester of the acyl carrier protein (ACP) bound polyketide chain. Herein, we describe an in vitro approach combining purified enzyme components, chemical synthesis, isotopic labelling, mass spectrometry and NMR in conjunction with in vivo studies leading to the first characterisation of the α-hydroxylation bimodule of the mupirocin biosynthetic pathway. These studies reveal the precise timing of hydroxylation by MupA, substrate specificity and the ACP dependency of the enzyme components that comprise this α-hydroxylation bimodule. Furthermore, using purified enzyme, it is shown that the MmpA KS shows relaxed substrate specificity, suggesting precise spatiotemporal control of MupA recruitment in the context of the PKS. Finally, the detection of multiple intermodular MupA/ACP interactions suggests these bimodules may integrate MupA into their assembly.

摘要

莫匹罗星是由一种I型聚酮合酶(PKS)在[具体来源未提及]中产生的一种临床上重要的抗生素。主要生物活性代谢产物假单胞菌酸A(PA-A)在一个四取代四氢吡喃(THP)核心上组装而成,该核心包含一个6-羟基,据推测是通过结合聚酮链的酰基载体蛋白(ACP)硫酯的α-羟基化引入的。在此,我们描述了一种体外方法,该方法将纯化的酶组分、化学合成、同位素标记、质谱和核磁共振与体内研究相结合,从而首次对莫匹罗星生物合成途径的α-羟基化双模块进行了表征。这些研究揭示了MupA羟基化的精确时间、底物特异性以及构成该α-羟基化双模块的酶组分对ACP的依赖性。此外,使用纯化的酶表明,MmpA KS显示出宽松的底物特异性,这表明在PKS的背景下对MupA募集进行了精确的时空控制。最后,对多个模块间MupA/ACP相互作用的检测表明,这些双模块可能将MupA整合到它们的组装中。

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本文引用的文献

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2
Programmed Iteration Controls the Assembly of the Nonanoic Acid Side Chain of the Antibiotic Mupirocin.程序性迭代控制抗生素莫匹罗星中非那酸侧链的组装。
Angew Chem Int Ed Engl. 2022 Dec 12;61(50):e202212393. doi: 10.1002/anie.202212393. Epub 2022 Nov 10.
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Structure and mechanistic analyses of the gating mechanism of elongating ketosynthases.
延伸酮合成酶门控机制的结构与机理分析
ACS Catal. 2021 Jun 18;11(12):6787-6799. doi: 10.1021/acscatal.1c00745. Epub 2021 May 26.
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