Rapid assembly of mixed thiols for toll-like receptor-based electrochemical pathogen sensing†

IF 2.7 3区 化学 Q2 CHEMISTRY, ANALYTICAL
Rajesh G. Pillai, Khalid Azyat, Nora W. C. Chan and Abebaw B. Jemere
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引用次数: 0

Abstract

Herein, we describe a rapid and facile fabrication of electrochemical sensors utilizing two different toll-like receptor (TLR) proteins as biorecognition elements to detect bacterial pathogen associated molecular patterns (PAMPs). Using potential-assisted self-assembly, binary mixtures of 11-mercaptoundecanoic acid (MUA) and 6-mercapto-1-hexanol (MCH), or MUA and an in-house synthesized zwitterionic sulfobetaine thiol (DPS) were assembled on a gold working electrode within 5 minutes, which is >200 times shorter than other TLR sensors' preparation time. Electrochemical methods and X-ray photoelectron microscopy were used to characterize the SAM layers. SAMs composed of the betaine terminated thiol exhibited superior resistance to nonspecific interactions, and were used to develop the TLR sensors. Biosensors containing two individually immobilized TLRs (TLR4 and TLR9) were fabricated on separate MUA-DPS SAM modified Au electrodes (MUA-DPS/Au) and tested for their response towards their respective PAMPs. The changes to electron transfer resistance in EIS of the TLR4/MUA-DPS/Au sensor showed a detection limit of 4 ng mL−1 for E. coli 0157:H7 endotoxin (lipopolysaccharide, LPS) and a dynamic range of up to 1000 ng mL−1. The TLR4-based sensor showed negligible response when tested with LPS spiked human plasma samples, showing no interference from the plasma matrix. The TLR9/MUA-DPS/Au sensor responded linearly up to 350 μg mL−1 bacterial DNA, with a detection limit of 7 μg mL−1. The rapid assembly of the TLR sensors, excellent antifouling properties of the mixed SAM assembly, small size and ease of operation of EIS hold great promise for the development of a portable and automated broad-spectrum pathogen detection and classification tool.

Abstract Image

Abstract Image

快速组装混合硫醇,实现基于收费样受体的电化学病原体传感
在本文中,我们介绍了一种利用两种不同的类收费受体(TLR)蛋白作为生物识别元件来检测细菌病原体相关分子模式(PAMPs)的快速、简便的电化学传感器制造方法。利用电位辅助自组装技术,11-巯基十酸酐(MUA)和6-巯基-1-己醇(MCH)的二元混合物,或MUA和内部合成的齐聚亚硫基甜菜碱硫醇(DPS)的二元混合物在5分钟内组装在金工作电极上,比其他TLR传感器的制备时间缩短了200倍。电化学方法和 X 射线光电子显微镜用于表征 SAM 层。由甜菜碱末端硫醇组成的 SAM 对非特异性相互作用具有优异的抗性,因此被用于开发 TLR 传感器。在单独的 MUA-DPS SAM 修饰金电极(MUA-DPS/Au)上制作了含有两个单独固定的 TLR(TLR4 和 TLR9)的生物传感器,并测试了它们对各自的 PAMPs 的反应。TLR4/MUA-DPS/Au 传感器在 EIS 中电子转移电阻的变化显示,对大肠杆菌 0157:H7 内毒素(脂多糖,LPS)的检测限为 4 毫微克/毫升,动态范围高达 1000 毫微克/毫升。用添加了 LPS 的人体血浆样本进行测试时,基于 TLR4 的传感器的反应微乎其微,没有显示血浆基质的干扰。TLR9/MUA-DPS/Au 传感器的线性响应高达 350 μg mL-1 细菌 DNA,检测限为 7 μg mL-1。TLR 传感器的快速组装、混合 SAM 组装的优异防污性能、EIS 的小尺寸和易操作性,为开发便携式自动广谱病原体检测和分类工具带来了巨大希望。
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
Analytical Methods
Analytical Methods CHEMISTRY, ANALYTICAL-FOOD SCIENCE & TECHNOLOGY
CiteScore
5.10
自引率
3.20%
发文量
569
审稿时长
1.8 months
期刊介绍: Early applied demonstrations of new analytical methods with clear societal impact
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