基于漆酶的安培流动注射微流控生物传感器的制备用于酚类化合物的原位测定

Fabrication of an Amperometric Flow-Injection Microfluidic Biosensor Based on Laccase for In Situ Determination of Phenolic Compounds.

作者信息

Gonzalez-Rivera Juan C, Osma Johann F

机构信息

CMUA, Department of Electrical and Electronics Engineering, University of Los Andes, Cra 1 E No. 19 A-40, Bogota, Colombia.

出版信息

Biomed Res Int. 2015;2015:845261. doi: 10.1155/2015/845261. Epub 2015 Oct 5.

DOI:10.1155/2015/845261

PMID:26509166

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4609777/

Abstract

We aim to develop an in situ microfluidic biosensor based on laccase from Trametes pubescens with flow-injection and amperometry as the transducer method. The enzyme was directly immobilized by potential step chronoamperometry, and the immobilization was studied using cyclic voltammetry and electrochemical impedance spectroscopy. The electrode response by amperometry was probed using ABTS and syringaldazine. A shift of interfacial electron transfer resistance and the electron transfer rate constant from 18.1 kΩ to 3.9 MΩ and 4.6 × 10(-2) cm s(-1) to 2.1 × 10(-4) cm s(-1), respectively, evidenced that laccase was immobilized on the electrode by the proposed method. We established the optimum operating conditions of temperature (55°C), pH (4.5), injection flow rate (200 µL min(-1)), and applied potential (0.4 V). Finally, the microfluidic biosensor showed better lower limit of detection (0.149 µM) and sensitivity (0.2341 nA µM(-1)) for ABTS than previous laccase-based biosensors and the in situ operation capacity.

摘要

我们旨在开发一种基于毛栓菌漆酶的原位微流控生物传感器，采用流动注射和安培法作为换能器方法。通过恒电位阶跃计时安培法直接固定酶，并使用循环伏安法和电化学阻抗谱研究固定化情况。使用ABTS和丁香醛连氮对安培法的电极响应进行探测。界面电子转移电阻和电子转移速率常数分别从18.1 kΩ 变为3.9 MΩ 以及从4.6×10⁻² cm s⁻¹ 变为2.1×10⁻⁴ cm s⁻¹，证明通过所提出的方法漆酶被固定在电极上。我们确定了温度（55°C）、pH（4.5）、进样流速（200 µL min⁻¹）和施加电位（0.4 V）的最佳操作条件。最后，该微流控生物传感器对ABTS显示出比以前基于漆酶的生物传感器更好的检测下限（0.149 µM）和灵敏度（0.2341 nA µM⁻¹）以及原位操作能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/113d/4609777/ebff950dcb20/BMRI2015-845261.001.jpg

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基于漆酶的安培流动注射微流控生物传感器的制备用于酚类化合物的原位测定

Fabrication of an Amperometric Flow-Injection Microfluidic Biosensor Based on Laccase for In Situ Determination of Phenolic Compounds.

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