基于纳米纤维膜的酪氨酸酶生物传感器用于检测酚类化合物。

Nanofibrous membrane based tyrosinase-biosensor for the detection of phenolic compounds.

机构信息

Dipartimento di Scienze e Tecnologie Alimentari, Università degli Studi di Milano, Via Celoria 2, 20133, Milan, Italy.

出版信息

Anal Chim Acta. 2010 Feb 5;659(1-2):133-6. doi: 10.1016/j.aca.2009.11.039. Epub 2009 Nov 26.

DOI:10.1016/j.aca.2009.11.039

PMID:20103115

Abstract

A tyrosinase-modified electrode is described to be used as amperometric biosensor for the detection of phenolic compounds in food. The enzyme has been immobilized by drop-coating on a glassy carbon electrode covered by a polyamidic nanofibrous membrane prepared by electrospinning. With respect to others, the selectivity of the designed tyrosinase-biosensor resulted modified by the presence of the nanostructured coating which seems to affect the permeability of phenols as a function of the pH of the solution and of their dissociation constants. The biosensor exhibits a response time of 16 s, a detection limit of 0.05 microM, and a linearity up to 100 microM (slope: -304 nA microM(-1); intercept: -191 nA, r(2)=0.996, n=19). Among others, it can be successfully used for monitoring in real time the release kinetics of phenols encapsulated in polymeric microcapsules.

摘要

一种酪氨酸酶修饰电极被描述为用于检测食品中酚类化合物的电流型生物传感器。该酶通过滴涂固定在玻碳电极上，该电极表面覆盖有电纺制备的聚酰胺纳米纤维膜。与其他方法相比，设计的酪氨酸酶生物传感器的选择性由于纳米结构涂层的存在而得到了修饰，这种涂层似乎会影响酚类物质的渗透性，这是溶液 pH 值和它们离解常数的函数。该生物传感器的响应时间为 16 秒，检测限为 0.05 μM，线性范围可达 100 μM（斜率：-304 nA μM^-1；截距：-191 nA，r(2)=0.996，n=19）。此外，它还可以成功用于实时监测封装在聚合物微胶囊中的酚类物质的释放动力学。

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基于纳米纤维膜的酪氨酸酶生物传感器用于检测酚类化合物。

Nanofibrous membrane based tyrosinase-biosensor for the detection of phenolic compounds.

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