Engineering of a phosphotriesterase with improved stability and enhanced activity for detoxification of the pesticide metabolite malaoxon.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2023-01-21 DOI:10.1093/protein/gzad020

Laura Job, Anja Köhler, Mauricio Testanera, Benjamin Escher, Franz Worek, Arne Skerra

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引用次数: 0

Abstract

Organophosphorus (OP) pesticides are still widely applied but pose a severe toxicological threat if misused. For in vivo detoxification, the application of hydrolytic enzymes potentially offers a promising treatment. A well-studied example is the phosphotriesterase of Brevundimonas diminuta (BdPTE). Whereas wild-type BdPTE can hydrolyse pesticides like paraoxon, chlorpyrifos-oxon and mevinphos with high catalytic efficiencies, kcat/KM >2 × 107 M-1 min-1, degradation of malaoxon is unsatisfactory (kcat/KM ≈ 1 × 104 M-1 min-1). Here, we report the rational engineering of BdPTE mutants with improved properties and their efficient production in Escherichia coli. As result, the mutant BdPTE(VRNVVLARY) exhibits 37-fold faster malaoxon hydrolysis (kcat/KM = 4.6 × 105 M-1 min-1), together with enhanced expression yield, improved thermal stability and reduced susceptibility to oxidation. Therefore, this BdPTE mutant constitutes a powerful candidate to develop a biocatalytic antidote for the detoxification of this common pesticide metabolite as well as related OP compounds.

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一种具有改进的稳定性和增强的农药代谢产物马拉氧酮解毒活性的磷酸三酯酶的工程。

有机磷农药仍然被广泛应用，但如果滥用，会造成严重的毒理学威胁，包括自杀企图。对于体内解毒，水解酶的应用可能提供一种有前景的治疗方法。一个研究得很好的例子是短小短单胞菌（BdPTE）的磷酸三酯酶。野生型BdPTE可以以高催化效率水解农药，如对氧磷、毒死蜱和甲脒磷，kcat/KM > 2×107 M-1 min-1，马拉氧酮的降解不令人满意（kcat/KM ≈ ×104 M-1 min-1）。在此，我们报道了BdPTE突变体的合理工程，这些突变体具有改进的特性，并在大肠杆菌中高效生产。结果，突变体BdPTE（VRNVVLARY）表现出比马拉氧酮水解快37倍（kcat/KM = 4.6×105 M-1 min-1），以及提高的表达产率、改善的热稳定性（参考wt-BdPTE）和降低的氧化易感性。因此，这种BdPTE突变体构成了一个强大的候选者，可能是在进一步工程开发出一种生物催化解药来解毒这种常见的农药代谢产物以及相关的OP化合物之后。

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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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464