工程法定量淬灭酰化酶具有更好的动力学和生物化学特性。

IF 4.5 3区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Protein Science Pub Date : 2024-04-01 DOI:10.1002/pro.4954
Kitty Sompiyachoke, Mikael H Elias
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引用次数: 0

摘要

许多革兰氏阴性细菌利用 N-酰基-L-高丝氨酸内酯(AHL)信号来协调生物膜形成和毒力因子产生等表型。AHL酰化酶等法定量拮抗酶能化学降解这些分子,从而阻止细菌接收信号,抑制与生物膜相关的不良特性。这些功能使酰化酶成为控制微生物的理想候选物,但我们需要的候选物必须具有高活性和底物特异性,并能配制成材料。在这项工作中,我们针对两种 AHL酰化酶(PvdQ 和 MacQ)进行了工程改造,利用蛋白质一站式服务服务器(Protein One-Stop Shop Server)生成了这些改良特性。酰化酶的工程化因低通量的酶测定而变得复杂。为了应对这一挑战,我们报告了一种 AHL酰化酶的时程动力学测定法,它能监测高丝氨酸内酯的实时生成。利用这种测定方法,我们发现了 PvdQ 的变体,这些变体具有显著的稳定性,熔点最高可升高 13.2°C,从而对有机溶剂具有较高的耐受性,并提高了与材料涂层的兼容性。虽然 MacQ 突变体出乎意料地失去了稳定性,但它们的动力学特性却得到了极大改善,对 N-丁酰基-L-高丝氨酸内酯和 N-己酰基-L-高丝氨酸内酯的反应速度提高了 10 倍以上。因此,这些变化提高了生物传感器模型的淬灭能力,并更有效地抑制了铜绿假单胞菌 PA14 毒力因子的产生。虽然其中一种 MacQ 变体(M1)的晶体结构没有揭示出明显的结构决定因素来解释观察到的动力学变化,但它允许捕获一种酰基酶中间体,这证实了之前假设的 AHL酰化酶催化机理。
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Engineering quorum quenching acylases with improved kinetic and biochemical properties.

Many Gram-negative bacteria use N-acyl-L-homoserine lactone (AHL) signals to coordinate phenotypes such as biofilm formation and virulence factor production. Quorum-quenching enzymes, such as AHL acylases, chemically degrade these molecules which prevents signal reception by bacteria and inhibits undesirable biofilm-related traits. These capabilities make acylases appealing candidates for controlling microbes, yet candidates with high activity levels and substrate specificity and that are capable of being formulated into materials are needed. In this work, we undertook engineering efforts against two AHL acylases, PvdQ and MacQ, to generate these improved properties using the Protein One-Stop Shop Server. The engineering of acylases is complicated by low-throughput enzymatic assays. Alleviating this challenge, we report a time-course kinetic assay for AHL acylases that monitors the real-time production of homoserine lactone. Using the assay, we identified variants of PvdQ that were significantly stabilized, with melting point increases of up to 13.2°C, which translated into high resistance against organic solvents and increased compatibility with material coatings. While the MacQ mutants were unexpectedly destabilized, they had considerably improved kinetic properties, with >10-fold increases against N-butyryl-L-homoserine lactone and N-hexanoyl-L-homoserine lactone. Accordingly, these changes resulted in increased quenching abilities using a biosensor model and greater inhibition of virulence factor production of Pseudomonas aeruginosa PA14. While the crystal structure of one of the MacQ variants, M1, did not reveal obvious structural determinants explaining the observed changes in kinetics, it allowed for the capture of an acyl-enzyme intermediate that confirms a previously hypothesized catalytic mechanism of AHL acylases.

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来源期刊
Protein Science
Protein Science 生物-生化与分子生物学
CiteScore
12.40
自引率
1.20%
发文量
246
审稿时长
1 months
期刊介绍: Protein Science, the flagship journal of The Protein Society, is a publication that focuses on advancing fundamental knowledge in the field of protein molecules. The journal welcomes original reports and review articles that contribute to our understanding of protein function, structure, folding, design, and evolution. Additionally, Protein Science encourages papers that explore the applications of protein science in various areas such as therapeutics, protein-based biomaterials, bionanotechnology, synthetic biology, and bioelectronics. The journal accepts manuscript submissions in any suitable format for review, with the requirement of converting the manuscript to journal-style format only upon acceptance for publication. Protein Science is indexed and abstracted in numerous databases, including the Agricultural & Environmental Science Database (ProQuest), Biological Science Database (ProQuest), CAS: Chemical Abstracts Service (ACS), Embase (Elsevier), Health & Medical Collection (ProQuest), Health Research Premium Collection (ProQuest), Materials Science & Engineering Database (ProQuest), MEDLINE/PubMed (NLM), Natural Science Collection (ProQuest), and SciTech Premium Collection (ProQuest).
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