Discovery and biocatalytic characterization of opine dehydrogenases by metagenome mining.

IF 3.9 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Applied Microbiology and Biotechnology Pub Date : 2024-12-01 Epub Date: 2024-01-13 DOI:10.1007/s00253-023-12871-z
András Telek, Zsófia Molnár, Kristóf Takács, Bálint Varga, Vince Grolmusz, Gábor Tasnádi, Beáta G Vértessy
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引用次数: 0

Abstract

Enzymatic processes play an increasing role in synthetic organic chemistry which requires the access to a broad and diverse set of enzymes. Metagenome mining is a valuable and efficient way to discover novel enzymes with unique properties for biotechnological applications. Here, we report the discovery and biocatalytic characterization of six novel metagenomic opine dehydrogenases from a hot spring environment (mODHs) (EC 1.5.1.X). These enzymes catalyze the asymmetric reductive amination between an amino acid and a keto acid resulting in opines which have defined biochemical roles and represent promising building blocks for pharmaceutical applications. The newly identified enzymes exhibit unique substrate specificity and higher thermostability compared to known examples. The feature that they preferably utilize negatively charged polar amino acids is so far unprecedented for opine dehydrogenases. We have identified two spatially correlated positions in their active sites that govern this substrate specificity and demonstrated a switch of substrate preference by site-directed mutagenesis. While they still suffer from a relatively narrow substrate scope, their enhanced thermostability and the orthogonality of their substrate preference make them a valuable addition to the toolbox of enzymes for reductive aminations. Importantly, enzymatic reductive aminations with highly polar amines are very rare in the literature. Thus, the preparative-scale enzymatic production, purification, and characterization of three highly functionalized chiral secondary amines lend a special significance to our work in filling this gap. KEY POINTS: • Six new opine dehydrogenases have been discovered from a hot spring metagenome • The newly identified enzymes display a unique substrate scope • Substrate specificity is governed by two correlated active-site residues.

通过元基因组挖掘发现阿片脱氢酶并确定其生物催化特性。
酶制剂过程在合成有机化学中发挥着越来越重要的作用,这就需要获得广泛多样的酶。元基因组挖掘是为生物技术应用发现具有独特性质的新型酶的一种宝贵而有效的方法。在这里,我们报告了从温泉环境中发现的六种新型元基因组蛋白脱氢酶(mODHs)(EC 1.5.1.X)及其生物催化特性。这些酶催化氨基酸和酮酸之间的不对称还原胺化反应,生成具有明确生化作用的蛋白石,是有希望用于制药的构筑物。与已知实例相比,新发现的酶具有独特的底物特异性和更高的热稳定性。它们优先利用带负电荷的极性氨基酸的特点是迄今为止阿片脱氢酶中前所未有的。我们在它们的活性位点上发现了两个空间相关的位置,这两个位置决定了它们的底物特异性,并通过定点突变证明了底物偏好的转换。虽然它们的底物范围仍然相对较窄,但其增强的热稳定性和底物偏好的正交性使它们成为还原胺化酶工具箱中的重要一员。重要的是,高极性胺的酶还原胺化反应在文献中非常罕见。因此,制备规模的酶法生产、纯化和表征三种高度官能化的手性仲胺对我们填补这一空白具有特殊意义。关键点:- 从温泉元基因组中发现了六种新的蛋白氨酸脱氢酶 - 新发现的酶具有独特的底物范围 - 底物特异性由两个相关的活性位点残基决定。
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来源期刊
Applied Microbiology and Biotechnology
Applied Microbiology and Biotechnology 工程技术-生物工程与应用微生物
CiteScore
10.00
自引率
4.00%
发文量
535
审稿时长
2 months
期刊介绍: Applied Microbiology and Biotechnology focusses on prokaryotic or eukaryotic cells, relevant enzymes and proteins; applied genetics and molecular biotechnology; genomics and proteomics; applied microbial and cell physiology; environmental biotechnology; process and products and more. The journal welcomes full-length papers and mini-reviews of new and emerging products, processes and technologies.
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