基于异构转录因子 (aTF) 的超灵敏电化学生物传感器用于检测 Pb2+

Biosensors Pub Date : 2024-09-18 DOI:10.3390/bios14090446
Ningkang Yu, Chen Zhao, Xiaodan Kang, Cheng Zhang, Xi Zhang, Chenyu Li, Shang Wang, Bin Xue, Xiaobo Yang, Chao Li, Zhigang Qiu, Jingfeng Wang, Zhiqiang Shen
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引用次数: 0

摘要

暴露于环境(尤其是水中)中的 Pb2+ 对人类健康构成重大威胁,因此迫切需要开发高灵敏度的 Pb2+ 检测方法。在这项研究中,我们将电化学技术的高灵敏度与异位转录因子(aTFs)相结合,开发出一种创新的电化学生物传感平台。这种生物传感器利用 DNA 与电极表面的 aTFs(PbrR)的特异性结合和解离来检测 Pb2+。在最佳条件下,该平台的线性检测范围从 1 pM 到 10 nM,检测阈值极低,仅为 1 pM,同时对 Pb2+ 具有极佳的选择性。值得注意的是,该生物传感器具有再生能力,可进行多达五次有效的 Pb2+ 测量。在 4 °C 下保存一周后,仍能有效检测铅离子,这表明该生物传感器具有出色的稳定性,可有效节省检测成本。该生物传感器在实际水样中的回收率也达到了 93.3% 至 106.6%。该生物传感器显示了其作为环境监测中超灵敏检测 Pb2+ 的强大工具的潜力。此外,这项研究还为 aTFs 在电化学传感领域的未来应用提供了新的见解。
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Ultrasensitive Electrochemical Biosensors Based on Allosteric Transcription Factors (aTFs) for Pb2+ Detection
Exposure to Pb2+ in the environment, especially in water, poses a significant threat to human health and urgently necessitates the development of highly sensitive Pb2+ detection methods. In this study, we have integrated the high sensitivity of electrochemical techniques with allosteric transcription factors (aTFs) to develop an innovative electrochemical biosensing platform. This biosensors leverage the specific binding and dissociation of DNA to the aTFs (PbrR) on electrode surfaces to detect Pb2+. Under the optimal conditions, the platform has a broad linear detection range from 1 pM to 10 nM and an exceptionally low detection threshold of 1 pM, coupled with excellent selectivity for Pb2+. Notably, the biosensor demonstrates regenerative capabilities, enabling up to five effective Pb2+ measurements. After one week of storage at 4 °C, effective lead ion detection was still possible, demonstrating the biosensor’s excellent stability, this can effectively save the cost of detection. The biosensor also achieves a recovery rate of 93.3% to 106.6% in real water samples. The biosensor shows its potential as a robust tool for the ultrasensitive detection of Pb2+ in environmental monitoring. Moreover, this research provides new insights into the future applications of aTFs in electrochemical sensing.
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