探索参与嗜热铁载体fuscachelin生物合成的NRPS缩合结构域的选择性和工程潜力

Frontiers in catalysis Pub Date : 2023-06-16 DOI:10.3389/fctls.2023.1184959

Y. Ho, T. Izoré, J. Kaczmarski, Edward Marschall, M. S. Ratnayake, J. Tailhades, D. Steer, R. Schittenhelm, M. Tosin, C. Jackson, M. Cryle

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摘要

在非核糖体肽合成中，缩合(C)结构域是关键的催化结构域，最常将载体蛋白结合的底物连接起来形成肽或沉积肽。虽然腺苷化结构域因其在单体选择中的作用而被很好地表征，因此在非核糖体肽生物合成中作为看门人，但c结构域一直是争论的主题，因为它们对受体底物没有明显的“a结构域”侧链选择性。为了探究c结构域的选择性和特异性，本文报道了铁载体fusachelin生物合成中c3结构域的生化和结构表征。我们的研究结果表明，对于具有显著侧链或主干交替的单体，该c结构域并不具有广泛的灵活性，这表明在进行NRPS工程时可能需要考虑受体底物的c结构域特异性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Exploring the selectivity and engineering potential of an NRPS condensation domain involved in the biosynthesis of the thermophilic siderophore fuscachelin

In nonribosomal peptide synthesis, condensation (C) domains are key catalytic domains that most commonly link carrier protein bound substrates to form peptides or depsipeptides. While adenylation domains have been well characterized due to their role in the selection of monomers and hence as gate keepers in nonribosomal peptide biosynthesis, C-domains have been the subject of debate as they do not have apparent “A-domain like” side chain selectivity for their acceptor substrates. To probe the selectivity and specificity of C-domains, here we report our biochemical and structural characterization of the C3-domain from the biosynthesis of the siderophore fusachelin. Our results show that this C-domain is not broadly flexible for monomers bearing significantly alternated side chains or backbones, which suggests there can be a need to consider C-domain specificity for acceptor substrates when undertaking NRPS engineering.

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Frontiers in catalysis

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