Enzyme Functional Screening, Discovery and Engineering; Automation, Metagenomics and High-throughput Approaches

International Journal of Biochemistry Research and Review Pub Date : 2020-01-20 DOI:10.9734/ijbcrr/2019/v28i430156

Sikander Ali, Syed muhammad Shahid Hussain

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Abstract

Concerned with the construction and design of novel biocatalysts, the enzyme engineering served to overcome the limitations of native enzymes, in order to create biocatalysts with tailored functions, to facilitate industrial applications. The enzymes, being recognized by screening and discovery workflows and further tailored by engineering platforms, are of immense potential as improved biocatalysts. Functional metagenomics is a powerful tool to identify novel enzymes followed by the construction of metagenome-based enzyme libraries. And the subsequent screening of these enzyme libraries is in turn facilitated by ultra-high-throughput-based, for example FACS or microfluidics, enzyme engineering technologies. Relies on the compartmentalization of reaction components, in order to detect and measure assay signal within the reaction compartments, the enzyme engineering platforms are designed which include cell-as-compartment platforms, dropletbased platforms and micro-chamber-based platforms. The metagenomics approach and highthroughput screening by these three prime enzyme engineer platforms are the focus of this review. Review Article

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酶的功能筛选、发现与工程自动化、宏基因组学和高通量方法

酶工程涉及新型生物催化剂的构建和设计，旨在克服天然酶的局限性，以创造具有定制功能的生物催化剂，以促进工业应用。这些酶在筛选和发现工作流程中得到认可，并由工程平台进一步定制，作为改进的生物催化剂具有巨大的潜力。功能宏基因组学是鉴定新酶和构建基于宏基因组的酶库的有力工具。这些酶库的后续筛选反过来又由超高通量为基础的，例如FACS或微流体，酶工程技术促进。基于反应组分的区室化，为了检测和测量反应区室内的分析信号，设计了酶工程平台，包括细胞作为区室平台、基于液滴的平台和基于微室的平台。本文综述了这三种主要酶工程平台的宏基因组学方法和高通量筛选。评论文章

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International Journal of Biochemistry Research and Review

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