Immobilization of His6-tagged amine transaminases in microreactors using functionalized nonwoven nanofiber membranes

IF 4.5 2区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS
Borut Šketa , James L. Galman , Nicholas J. Turner , Polona Žnidaršič-Plazl
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Abstract

Process intensification is crucial for industrial implementation of biocatalysis and can be achieved by continuous process operation in miniaturized reactors with efficiently immobilized biocatalysts, enabling their long-term use. Due to their extremely large surface-to-volume ratio, nanomaterials are promising supports for enzyme immobilization. In this work, different functionalized nanofibrous nonwoven membranes were embedded in a two-plate microreactor to enable immobilization of hexahistidine (His6)-tagged amine transaminases (ATAs) in flow. A membrane coated with Cu2+ ions gave the best results regarding His6-tagged ATAs immobilization among the membranes tested yielding an immobilization yield of up to 95.3 % for the purified N-His6-ATA-wt enzyme. Moreover, an efficient one-step enzyme immobilization process from overproduced enzyme in Escherichia coli cell lysate was developed and yielded enzyme loads up to 1088 U mL−1. High enzyme loads resulted in up to 80 % yields of acetophenone produced from 40 mM (S)-α-methylbenzylamine in less than 4 min using a continuously operated microreactor. Up to 81 % of the initial activity was maintained in a 5-day continuous microreactor operation with immobilized His6-tagged ATA constructs. The highest turnover number within the indicated time was 7.23·106, which indicates that this immobilization approach using advanced material and reactor system is highly relevant for industrial implementation.

Abstract Image

使用功能化无纺纳米纤维膜在微反应器中固定 His6 标记的胺转氨酶。
工艺强化对于生物催化的工业化实施至关重要,可以通过在小型化反应器中使用高效固定的生物催化剂实现连续的工艺操作,从而使其能够长期使用。由于纳米材料具有极高的表面体积比,因此是酶固定化的理想支撑材料。在这项工作中,将不同功能化的纳米纤维无纺布膜嵌入双板微反应器中,以实现流动固定六组氨酸(His6)标记的胺转氨酶(ATA)。在测试的膜中,涂有 Cu2+ 离子的膜在固定 His6 标记的 ATAs 方面效果最好,纯化的 N-His6-ATA-wt 酶的固定率高达 95.3%。此外,从大肠杆菌细胞裂解物中过量生产的酶中开发出了一种高效的一步酶固定工艺,酶载量高达 1088 U mL-1。使用连续操作的微反应器,在不到 4 分钟的时间内,高酶负荷可从 40mM (S)-α-甲基苄胺中生产出高达 80% 的苯乙酮。在使用固定的 His6 标记 ATA 构建体的情况下,连续运行 5 天的微反应器可保持高达 81% 的初始活性。在指定时间内的最高周转次数为 7.23-106,这表明这种固定化方法先进的材料和反应器系统非常适合工业应用。
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来源期刊
New biotechnology
New biotechnology 生物-生化研究方法
CiteScore
11.40
自引率
1.90%
发文量
77
审稿时长
1 months
期刊介绍: New Biotechnology is the official journal of the European Federation of Biotechnology (EFB) and is published bimonthly. It covers both the science of biotechnology and its surrounding political, business and financial milieu. The journal publishes peer-reviewed basic research papers, authoritative reviews, feature articles and opinions in all areas of biotechnology. It reflects the full diversity of current biotechnology science, particularly those advances in research and practice that open opportunities for exploitation of knowledge, commercially or otherwise, together with news, discussion and comment on broader issues of general interest and concern. The outlook is fully international. The scope of the journal includes the research, industrial and commercial aspects of biotechnology, in areas such as: Healthcare and Pharmaceuticals; Food and Agriculture; Biofuels; Genetic Engineering and Molecular Biology; Genomics and Synthetic Biology; Nanotechnology; Environment and Biodiversity; Biocatalysis; Bioremediation; Process engineering.
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