Aptamer-Functionalized Microchannel-Gated Field-Effect Transistor Biosensor for In Vivo Detection of Dopamine

化学 生物传感器 适体 微通道 JFET公司 检出限 电容 晶体管 纳米技术 场效应晶体管 生物分子 电导 线性范围 生物物理学 逻辑门 光电子学 动态范围 电荷密度 电极 分析化学(期刊) 灵敏度(控制系统)
作者
Yulan Zeng,Lin Tu,Huabin Cai,Xuran Tian,Zhonghui Chen,Fengfu Fu,Jian Wang,Zhenyu Lin
出处
期刊:Analytical Chemistry [American Chemical Society]
卷期号:98 (5): 4362-4371 被引量:1
标识
DOI:10.1021/acs.analchem.5c07780
摘要

Field-effect transistors (FETs) have been widely applied in biosensors due to their inherent signal amplification capabilities. Glass-based microchannels offer excellent mechanical rigidity and facile surface functionalization, which have been applied in vivo. In this study, a microchannel was coupled with a junction FET (JFET) to design a sensitive biosensor for dopamine (DA, chosen as a model target) detection. A specific, negatively charged DA aptamer was immobilized on the inner wall of the microchannel as the recognition element, and the microchannel served as an extended gate connected between the electrochemical workstation and the gate of the JFET. Acting as a tunable resistor, the microchannel modulates the voltage distribution within the circuit. Since DA is positively charged, specific binding of the target to the aptamer reduces the local negative charge density of the microchannel, thereby altering the effective gate voltage. The subtle resistance shift induced by DA resulted in a change in the gate voltage, leading to a significant change in channel current. The system response exhibits a linear relationship with the logarithm of the target concentration over the range from 1.00 nM to 10.0 μM, with a detection limit as low as 0.15 nM (S/N = 3). The constructed microchannel-gated JFET biosensor exhibited high sensitivity and selectivity and was successfully applied to detect the DA concentration in the human serum and striatum of Sprague-Dawley rats, demonstrating its promising potential for trace biomolecule detection in vivo.
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