Accelerating enzyme discovery and engineering with high-throughput screening.

IF 10.2 1区化学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Natural Product Reports Pub Date : 2024-10-15 DOI:10.1039/d4np00031e

Eray U Bozkurt, Emil C Ørsted, Daniel C Volke, Pablo I Nikel

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引用次数: 0

Abstract

Covering: up to August 2024Enzymes play an essential role in synthesizing value-added chemicals with high specificity and selectivity. Since enzymes utilize substrates derived from renewable resources, biocatalysis offers a pathway to an efficient bioeconomy with reduced environmental footprint. However, enzymes have evolved over millions of years to meet the needs of their host organisms, which often do not align with industrial requirements. As a result, enzymes frequently need to be tailored for specific industrial applications. Combining enzyme engineering with high-throughput screening has emerged as a key approach for developing novel biocatalysts, but several challenges are yet to be addressed. In this review, we explore emergent strategies and methods for isolating, creating, and characterizing enzymes optimized for bioproduction. We discuss fundamental approaches to discovering and generating enzyme variants and identifying those best suited for specific applications. Additionally, we cover techniques for creating libraries using automated systems and highlight innovative high-throughput screening methods that have been successfully employed to develop novel biocatalysts for natural product synthesis.

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通过高通量筛选加速酶的发现和工程化。

覆盖范围：至 2024 年 8 月酶在合成具有高特异性和选择性的增值化学品方面发挥着至关重要的作用。由于酶利用从可再生资源中提取的底物，生物催化提供了一条通往高效生物经济、减少环境足迹的途径。然而，酶经过数百万年的进化，已经能够满足宿主生物的需求，而这些需求往往与工业要求不一致。因此，酶经常需要针对特定的工业应用进行定制。将酶工程与高通量筛选相结合已成为开发新型生物催化剂的关键方法，但仍有一些挑战有待解决。在这篇综述中，我们探讨了分离、创造和表征优化生物生产用酶的新策略和方法。我们讨论了发现和生成酶变体以及确定最适合特定应用的酶变体的基本方法。此外，我们还介绍了使用自动化系统创建文库的技术，并重点介绍了已成功用于开发天然产物合成的新型生物催化剂的创新型高通量筛选方法。

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来源期刊

Natural Product Reports 化学-生化与分子生物学

CiteScore

21.20

自引率

3.40%

发文量

127

审稿时长

1.7 months

期刊介绍： Natural Product Reports (NPR) serves as a pivotal critical review journal propelling advancements in all facets of natural products research, encompassing isolation, structural and stereochemical determination, biosynthesis, biological activity, and synthesis. With a broad scope, NPR extends its influence into the wider bioinorganic, bioorganic, and chemical biology communities. Covering areas such as enzymology, nucleic acids, genetics, chemical ecology, carbohydrates, primary and secondary metabolism, and analytical techniques, the journal provides insightful articles focusing on key developments shaping the field, rather than offering exhaustive overviews of all results. NPR encourages authors to infuse their perspectives on developments, trends, and future directions, fostering a dynamic exchange of ideas within the natural products research community.