通过双重筛选对转录因子PbrR进行定向进化，以提高铅选择性并减少锌干扰。

Directed evolution of a transcription factor PbrR to improve lead selectivity and reduce zinc interference through dual selection.

作者信息

Jia Xiaoqiang, Ma Yubing, Bu Rongrong, Zhao Tingting, Wu Kang

机构信息

Department of Biochemical Engineering, School of Chemical Engineering and Technology, Tianjin University, Tianjin, 300072, People's Republic of China.

Frontier Science Center for Synthetic Biology and Key Laboratory of Systems Bioengineering (MOE), School of Chemical Engineering and Technology, Tianjin University, Tianjin, 300350, People's Republic of China.

出版信息

AMB Express. 2020 Apr 10;10(1):67. doi: 10.1186/s13568-020-01004-8.

DOI:10.1186/s13568-020-01004-8

PMID:32277291

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7148400/

Abstract

Directed evolution has been proven as a powerful tool for developing proteins and strains with novel or enhanced features. In this study, a dual selection system was designed to tune the binding specificity of a transcription factor to a particular ligand with the ampicillin resistance gene amp (ON selection) as the positive selection marker and the levansucrase gene sacB (OFF selection) as the negative selection marker. It was applied to the lead responsive transcription factor PbrR in a whole-cell lead biosensor previously constructed in our lab (Jia et al. in Fems Microbiol Lett 365:fny157, 2018). After multiple rounds of ON-OFF selection, two mutants with higher specificity for lead were selected. Structural analysis revealed that the mutation C134 located on the metal-binding loop at the C-terminal of PbrR is likely associated with the enhanced binding to both lead and cadmium. The double mutations D64A and L68S close to the metal-binding residue C79 may lead to the reduced binding specificity toward zinc ions. This dual selection system can be applied to engineer the specificity of other transcription factors and provide fine-tuned tools to synthetic biology.

摘要

定向进化已被证明是开发具有新特性或增强特性的蛋白质和菌株的有力工具。在本研究中，设计了一种双重选择系统，以氨苄青霉素抗性基因amp（正向选择标记）作为阳性选择标记，以蔗糖蔗糖酶基因sacB（反向选择标记）作为阴性选择标记，来调节转录因子对特定配体的结合特异性。它被应用于我们实验室之前构建的全细胞铅生物传感器中的先导响应转录因子PbrR（Jia等人，《Fems Microbiol Lett》365:fny157，2018）。经过多轮的开-关选择，筛选出了两个对铅具有更高特异性的突变体。结构分析表明，位于PbrR C末端金属结合环上的突变C134可能与增强对铅和镉的结合有关。靠近金属结合残基C79的双突变D64A和L68S可能导致对锌离子的结合特异性降低。这种双重选择系统可用于改造其他转录因子的特异性，并为合成生物学提供微调工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/12a7/7148400/82620137683f/13568_2020_1004_Fig1_HTML.jpg

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本文引用的文献

Gene circuit engineering to improve the performance of a whole-cell lead biosensor.基因回路工程提高全细胞先导生物传感器的性能。

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通过双重筛选对转录因子PbrR进行定向进化，以提高铅选择性并减少锌干扰。

Directed evolution of a transcription factor PbrR to improve lead selectivity and reduce zinc interference through dual selection.

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