Identification of Proteins Using Supramolecular Gold Nanoparticle-Dye Sensor Arrays

IF 3.4 Q2 CHEMISTRY, ANALYTICAL Analysis & sensing Pub Date : 2023-01-20 DOI:10.1002/anse.202200080
Mingdi Jiang, Aarohi Gupta, Xianzhi Zhang, Aritra Nath Chattopadhyay, Stefano Fedeli, Rui Huang, Junwhee Yang, Prof. Vincent M. Rotello
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Abstract

The rapid detection of proteins is very important in the early diagnosis of diseases. Gold nanoparticles (AuNPs) can be engineered to bind biomolecules efficiently and differentially. Cross-reactive sensor arrays have high sensitivity for sensing proteins using differential interactions between sensor elements and bioanalytes. A new sensor array was fabricated using surface-charged AuNPs with dyes supramolecularly encapsulated into the AuNP monolayer. The fluorescence of dyes is partially quenched by the AuNPs and can be restored or further quenched due to the differential interactions between AuNPs with proteins. This sensing system enables the discrimination of proteins in both buffer and human serum, providing a potential tool for real-world disease diagnostics.

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利用超分子金纳米颗粒-染料传感器阵列鉴定蛋白质
蛋白质的快速检测对疾病的早期诊断非常重要。金纳米颗粒(AuNPs)可以被设计成有效和不同的结合生物分子。交叉反应传感器阵列具有高灵敏度的传感蛋白质利用传感器元件和生物分析物之间的差异相互作用。利用表面带电的AuNP,将染料超分子包裹在AuNP单层中,制备了一种新型传感器阵列。染料的荧光被AuNPs部分猝灭,由于AuNPs与蛋白质之间的差异相互作用,可以恢复或进一步猝灭。这种传感系统能够区分缓冲液和人血清中的蛋白质,为现实世界的疾病诊断提供了一种潜在的工具。
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