多功能人工 mer 操纵子在大肠杆菌中用于整体细胞生物传感和汞吸附。

Versatile artificial mer operons in Escherichia coli towards whole cell biosensing and adsorption of mercury.

机构信息

National Key Clinical Specialty of Occupational Diseases, Shenzhen Prevention and Treatment Center for Occupational Diseases, Shenzhen, China.

Department of Pathology & Toxicology, Shenzhen Prevention and Treatment Center for Occupational Diseases, Shenzhen, China.

出版信息

PLoS One. 2021 May 26;16(5):e0252190. doi: 10.1371/journal.pone.0252190. eCollection 2021.

DOI:10.1371/journal.pone.0252190

PMID:34038487

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8153442/

Abstract

Mercury exists naturally and mainly as a man-made pollutant in the environment, where it exerts adverse effects on local ecosystems and living organisms. It is important to develop an appropriate synthetic biological device that recognizes, detects and removes the bioavailable fraction of environmental mercury. Both single-signal and double-signal output mercury biosensors were assembled using a natural mer operon as a template. Selectivity and sensitivity of whole-cell biosensors based on artificial mer operons were determined. Three whole-cell biosensors were highly stable at very high concentrations of mercuric chloride, and could detect bioavailable Hg(II) in the concentration range of 6.25-200 μM HgCl2. A novel Hg(II) bioadsorption coupled with biosensing artificial mer operon was assembled. This would allow Hg(II)-induced Hg(II) binding protein cell surface display and green fluorescence emission to be achieved simultaneously while retaining the linear relationship between fluorescent signal and Hg(II) exposure concentration. The present study provides an innovative way to simultaneously detect, quantify, and remove bioavailable heavy metal ions using an artificially reconstructed heavy metal resistance operon.

摘要

汞在自然界中存在，主要是作为环境中的人为污染物，对当地生态系统和生物产生不利影响。开发一种合适的合成生物学装置来识别、检测和去除环境汞中的生物可利用部分非常重要。使用天然 mer 操纵子作为模板，组装了单信号和双信号输出汞生物传感器。基于人工 mer 操纵子的全细胞生物传感器的选择性和灵敏度得到了确定。三个全细胞生物传感器在高浓度氯化汞中非常稳定，能够检测到 6.25-200 μM HgCl2 浓度范围内的生物可利用 Hg(II)。组装了一种新型的 Hg(II)生物吸附与生物传感人工 mer 操纵子偶联。这将允许 Hg(II)诱导的 Hg(II)结合蛋白细胞表面展示和绿色荧光发射同时实现，同时保留荧光信号与 Hg(II)暴露浓度之间的线性关系。本研究提供了一种使用人工重建的重金属抗性操纵子同时检测、定量和去除生物可利用重金属离子的创新方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec38/8153442/981c8b47177d/pone.0252190.g001.jpg

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多功能人工 mer 操纵子在大肠杆菌中用于整体细胞生物传感和汞吸附。

Versatile artificial mer operons in Escherichia coli towards whole cell biosensing and adsorption of mercury.

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