In-Depth High-Throughput Screening of Protein Engineering Libraries by Split-GFP Direct Crude Cell Extract Data Normalization.

Chemistry & biology Pub Date : 2015-10-22 Epub Date: 2015-10-01 DOI:10.1016/j.chembiol.2015.08.014

Javier Santos-Aberturas, Mark Dörr, Geoffrey S Waldo, Uwe T Bornscheuer

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引用次数: 32

Abstract

Here, we report a widely and generally applicable strategy to obtain reliable information in high-throughput protein screenings of enzyme mutant libraries. The method is based on the usage of the split-GFP technology for the normalization of the expression level of each individual protein variant combined with activity measurements, thus resolving the important problems associated with the different solubility of each mutant and allowing the detection of previously invisible variants. The small size of the employed protein tag (16 amino acids) required for the reconstitution of the GFP fluorescence reduces possible interferences such as enzyme activity variations or solubility disturbances to a minimum. Specific enzyme activity measurements without purification, in situ soluble protein expression monitoring, and data normalization are the powerful outputs of this methodology, thus enabling the accurate identification of improved protein variants during high-throughput screening by substantially reducing the occurrence of false negatives and false positives.

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利用Split-GFP直接粗细胞提取数据归一化技术深入筛选蛋白质工程文库。

在这里，我们报告了一种广泛和普遍适用的策略，以获得高通量蛋白质筛选酶突变文库的可靠信息。该方法基于使用分裂- gfp技术，将每个单独的蛋白质变体的表达水平归一化并结合活性测量，从而解决了与每个突变体的不同溶解度相关的重要问题，并允许检测以前不可见的变体。重组GFP荧光所需的小尺寸蛋白质标签(16个氨基酸)将可能的干扰，如酶活性变化或溶解度干扰降至最低。未经纯化的特定酶活性测量，原位可溶性蛋白表达监测和数据归一化是该方法的强大输出，从而能够在高通量筛选期间准确识别改进的蛋白质变体，从而大大减少假阴性和假阳性的发生。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Chemistry & biology 生物-生化与分子生物学

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审稿时长

4-8 weeks