通过组合活性位点诱变使细菌磷酸三酯酶对马拉硫磷的特异性提高5000倍。

A 5000-fold increase in the specificity of a bacterial phosphotriesterase for malathion through combinatorial active site mutagenesis.

作者信息

Naqvi Tatheer, Warden Andrew C, French Nigel, Sugrue Elena, Carr Paul D, Jackson Colin J, Scott Colin

机构信息

Department of Environmental Sciences, COMSATS Institute of Information Technology, Abbottabad, Pakistan; Ecosystem Sciences, Commonwealth Scientific and Industrial Research Organisation, Canberra, Australian Capital Territory, Australia.

Ecosystem Sciences, Commonwealth Scientific and Industrial Research Organisation, Canberra, Australian Capital Territory, Australia.

出版信息

PLoS One. 2014 Apr 10;9(4):e94177. doi: 10.1371/journal.pone.0094177. eCollection 2014.

DOI:10.1371/journal.pone.0094177

PMID:24721933

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3983157/

Abstract

Phosphotriesterases (PTEs) have been isolated from a range of bacterial species, including Agrobcaterium radiobacter (PTEAr), and are efficient enzymes with broad substrate ranges. The turnover rate of PTEAr for the common organophosphorous insecticide malathion is lower than expected based on its physical properties; principally the pka of its leaving group. In this study, we rationalise the turnover rate of PTEAr for malathion using computational docking of the substrate into a high resolution crystal structure of the enzyme, suggesting that malathion is too large for the PTEAr binding pocket. Protein engineering through combinatorial active site saturation testing (CASTing) was then used to increase the rate of malathion turnover. Variants from a CASTing library in which Ser308 and Tyr309 were mutated yielded variants with increased activity towards malathion. The most active PTEAr variant carried Ser308Leu and Tyr309Ala substitutions, which resulted in a ca. 5000-fold increase in kcat/KM for malathion. X-ray crystal structures for the PTEAr Ser308Leu\Tyr309Ala variant demonstrate that the access to the binding pocket was enhanced by the replacement of the bulky Tyr309 residue with the smaller alanine residue.

摘要

磷酸三酯酶（PTEs）已从多种细菌中分离出来，包括放射土壤杆菌（PTEAr），它们是具有广泛底物范围的高效酶。基于其物理性质，特别是其离去基团的pKa，PTEAr对常见有机磷杀虫剂马拉硫磷的周转速率低于预期。在本研究中，我们通过将底物与该酶的高分辨率晶体结构进行计算对接，解释了PTEAr对马拉硫磷的周转速率，结果表明马拉硫磷对于PTEAr的结合口袋来说太大了。然后通过组合活性位点饱和测试（CASTing）进行蛋白质工程改造，以提高马拉硫磷的周转速率。来自CASTing文库的变体，其中Ser308和Tyr309发生了突变，产生了对马拉硫磷活性增加的变体。活性最高的PTEAr变体带有Ser308Leu和Tyr309Ala替换，这导致马拉硫磷的kcat/KM增加了约5000倍。PTEAr Ser308Leu\Tyr309Ala变体的X射线晶体结构表明，用较小的丙氨酸残基取代庞大的Tyr309残基增强了对结合口袋的可及性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/480a/3983157/87cfd75e308b/pone.0094177.g001.jpg

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通过组合活性位点诱变使细菌磷酸三酯酶对马拉硫磷的特异性提高5000倍。

A 5000-fold increase in the specificity of a bacterial phosphotriesterase for malathion through combinatorial active site mutagenesis.

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