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Advances in ultrahigh-throughput screening for directed enzyme evolution

吞吐量 定向进化 计算生物学 计算机科学 基因组 高通量筛选 纳米技术 化学 生物信息学 生物 材料科学 生物化学 基因 电信 无线 突变体
作者
Ulrich Markel,Khalil Essani,Volkan Besirlioglu,Johannes Schiffels,Wolfgang R. Streit,Ulrich Schwaneberg
出处
期刊:Chemical Society Reviews [Royal Society of Chemistry]
卷期号:49 (1): 233-262 被引量:259
标识
DOI:10.1039/c8cs00981c
摘要

Enzymes are versatile catalysts and their synthetic potential has been recognized for a long time. In order to exploit their full potential, enzymes often need to be re-engineered or optimized for a given application. (Semi-) rational design has emerged as a powerful means to engineer proteins, but requires detailed knowledge about structure function relationships. In turn, directed evolution methodologies, which consist of iterative rounds of diversity generation and screening, can improve an enzyme's properties with virtually no structural knowledge. Current diversity generation methods grant us access to a vast sequence space (libraries of >1012 enzyme variants) that may hide yet unexplored catalytic activities and selectivity. However, the time investment for conventional agar plate or microtiter plate-based screening assays represents a major bottleneck in directed evolution and limits the improvements that are obtainable in reasonable time. Ultrahigh-throughput screening (uHTS) methods dramatically increase the number of screening events per time, which is crucial to speed up biocatalyst design, and to widen our knowledge about sequence function relationships. In this review, we summarize recent advances in uHTS for directed enzyme evolution. We shed light on the importance of compartmentalization to preserve the essential link between genotype and phenotype and discuss how cells and biomimetic compartments can be applied to serve this function. Finally, we discuss how uHTS can inspire novel functional metagenomics approaches to identify natural biocatalysts for novel chemical transformations.
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