基于酪氨酸酶的安培型生物传感器用于酚类监测及希尔系数评估。

Phenols monitoring and Hill coefficient evaluation using tyrosinase-based amperometric biosensors.

作者信息

Stanca Sarmiza Elena, Popescu Ionel Catalin

机构信息

Department of Physics, Chemistry and Informatics, Faculty of Environmental Protection, University of Oradea, 3700 Oradea, Romania.

出版信息

Bioelectrochemistry. 2004 Aug;64(1):47-52. doi: 10.1016/j.bioelechem.2004.02.004.

DOI:10.1016/j.bioelechem.2004.02.004

PMID:15219246

Abstract

Sensitive amperometric biosensors for phenols compounds, based on tyrosinase (polyphenoloxidase, PPO) immobilized on a Pt electrode in an electropolymerized poly-amphiphilic pyrrole matrix or cross-linked with glutaraldehyde, were constructed and compared. Steady-state amperometric measurements, performed at -50 mV vs. SCE in aqueous phosphate buffer containing LiClO(4) 0.1 M (pH 7) as well as in a chloroform solution containing 0.1 M C(6)H(5)CH(2)N(CH(3))(3)Cl, were used in order to compare the electroanalytical and kinetic parameters of the investigated amperometric biosensors in aqueous and nonaqueous media. It was established that the polypyrrole matrix has a higher efficiency for enzyme retention resulting in higher bioelectrode sensitivity, both in aqueous buffer (690 microA M(-1)) and in chloroform (149 microA M(-1)).

摘要

构建并比较了基于固定在铂电极上的酪氨酸酶（多酚氧化酶，PPO）的酚类化合物灵敏安培生物传感器，该酪氨酸酶固定在电聚合的聚两亲性吡咯基质中或与戊二醛交联。为了比较所研究的安培生物传感器在水性和非水性介质中的电分析和动力学参数，在含有0.1 M LiClO(4)（pH 7）的磷酸盐水溶液中以及在含有0.1 M C(6)H(5)CH(2)N(CH(3))(3)Cl的氯仿溶液中，相对于饱和甘汞电极（SCE）在 -50 mV下进行稳态安培测量。结果表明，聚吡咯基质在保留酶方面具有更高的效率，从而在水性缓冲液（690 μA M(-1)）和氯仿（149 μA M(-1)）中均导致更高的生物电极灵敏度。

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基于酪氨酸酶的安培型生物传感器用于酚类监测及希尔系数评估。

Phenols monitoring and Hill coefficient evaluation using tyrosinase-based amperometric biosensors.

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