Smartphone-assisted robust enzymes@MOFs-based paper biosensor for point-of-care detection

生物传感器 注意事项 分析物 生物分子 信号(编程语言) 材料科学 计算机科学 纳米技术 化学 医学 护理部 物理化学 程序设计语言
作者
Xiaoxue Kou,Linjing Tong,Yujian Shen,Wangshu Zhu,Yin Li,Siming Huang,Fang Zhu,Guosheng Chen,Gangfeng Ouyang
出处
期刊:Biosensors and Bioelectronics [Elsevier BV]
卷期号:156: 112095-112095 被引量:152
标识
DOI:10.1016/j.bios.2020.112095
摘要

Portable devices featured with fast analysis and affordable methodologies for clinical diagnostics have stimulated the rapid development of point-of-care (POC) technologies, potentially lowering the mortality rate. Herein, we demonstrated a portable, robust, and user-friendly intelligent metal-organic frameworks (MOFs) paper device, called smartphone-assisted biomimetic MOFs nanoreactor colorimetric paper (SBMCP), for on-demand POC detection of endogenous biomolecules. The concept of this paper platform was analogous to the intracellular cascades signal transduction, wherein the single/multiple enzymes components trapped within a ZIF-8 exoskeleton allowed the sensitive and selective recognition of target analyte via the accessible micropores network of ZIF-8, and then transferred the recognition event to a visual color signal based on the cascade reaction. Meanwhile, the ZIF-8 exoskeleton also endowed the enzymes with significantly elevated stability. As a result, this robust and portable SBMCP sensor enabled the on-site analysis of different important disease-related biomolecules through modulating the enzyme cascades, combining with a custom-designed smartphone application for signal readout. In the SBMCP assay, no sophisticated instruments or professional skill of the user was required, only 5 μL sample volume was needed, and the whole analysis process could be achieved within a portable MOFs paper and pervasive smartphone, endowing this new assay with the merits of low-cost, time-saving and easy-to-use. We demonstrated this SBMCP sensor was capable of real-time colorimetric detection of glucose and uric acid in diabetes and gout events. It is believed that this portable biosensor platform proposed herein potentially represents promising alternatives for POC diagnosis, especially applicable in developing world and resource-limited settings.
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