描绘用作疟疾检测适配体传感器的系统集成石墨烯基生物场效应晶体管中的电荷和电容转导。

Delineating charge and capacitance transduction in system-integrated graphene-based BioFETs used as aptasensors for malaria detection.

作者信息

Figueroa-Miranda Gabriela, Liang Yuanying, Suranglikar Mohit, Stadler Matthias, Samane Nagesh, Tintelott Marcel, Lo Young, Tanner Julian A, Vu Xuan T, Knoch Joachim, Ingebrandt Sven, Offenhäusser Andreas, Pachauri Vivek, Mayer Dirk

机构信息

Institute of Biological Information Processing, Bioelectronics (IBI-3), Forschungszentrum Jülich GmbH, Jülich, Germany; Institute of Materials in Electrical Engineering 1, RWTH Aachen University, Aachen, Germany.

Institute of Biological Information Processing, Bioelectronics (IBI-3), Forschungszentrum Jülich GmbH, Jülich, Germany; Institute of Polymer Optoelectronic Materials and Devices, State Key Laboratory of Luminescent Materials and Devices, South China University of Technology, Guangdong, China.

出版信息

Biosens Bioelectron. 2022 Jul 15;208:114219. doi: 10.1016/j.bios.2022.114219. Epub 2022 Mar 26.

DOI:10.1016/j.bios.2022.114219

PMID:35367704

Abstract

Despite significant eradication efforts, malaria remains a persistent infectious disease with high mortality due to the lack of efficient point-of-care (PoC) screening solutions required to manage low-density asymptomatic parasitemia. In response, we demonstrate a quantitative electrical biosensor based on system-integrated two-dimensional field-effect transistors (2DBioFETs) of reduced graphene oxide (rGO) as transducer for high sensitivity screening of the main malaria biomarker, Plasmodium falciparum lactate dehydrogenase (PfLDH). The 2DBioFETs were biofunctionalized with pyrene-modified 2008s aptamers as specific PfLDH receptors. While we systematically optimize biosensor interface for optimal performance, aptamer-protein transduction at 2DBioFETs is elucidated based on delineation of charge and capacitance in an updated analytical model for two-dimensional rGO/biofunctional layer/electrolyte (2DiBLE) interfaces. Our 2DBioFET-aptasensors display a limit-of-detection down to 0.78 fM (0.11 pg/mL), dynamic ranges over 9 orders of magnitude (subfemto to submicromolar), high sensitivity, and selectivity in human serum validating their diagnostic potential as rapid PoC tests for malarial management.

摘要

尽管进行了大量的根除努力，但由于缺乏管理低密度无症状寄生虫血症所需的高效即时检测（PoC）筛查解决方案，疟疾仍然是一种持续存在的传染病，死亡率很高。作为回应，我们展示了一种基于系统集成二维场效应晶体管（2DBioFETs）的定量电化学生物传感器，该晶体管以还原氧化石墨烯（rGO）作为换能器，用于高灵敏度筛查主要疟疾生物标志物恶性疟原虫乳酸脱氢酶（PfLDH）。2DBioFETs用芘修饰的2008s适体作为特定的PfLDH受体进行生物功能化。在我们系统地优化生物传感器界面以实现最佳性能的同时，基于二维rGO/生物功能层/电解质（2DiBLE）界面的更新分析模型中电荷和电容的描述，阐明了2DBioFETs处的适体-蛋白质转导。我们的2DBioFET适体传感器在人血清中的检测限低至0.78 fM（0.11 pg/mL），动态范围超过9个数量级（亚飞摩尔至亚微摩尔），具有高灵敏度和选择性，验证了它们作为疟疾管理快速PoC检测的诊断潜力。

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描绘用作疟疾检测适配体传感器的系统集成石墨烯基生物场效应晶体管中的电荷和电容转导。

Delineating charge and capacitance transduction in system-integrated graphene-based BioFETs used as aptasensors for malaria detection.

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