A new sandwich-type assay of estrogen using piezoelectric biosensor immobilized with estrogen response element

Mo Zhihong, Long Xiaohui, F. Weiling
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引用次数: 39

Abstract

A new methodology, sandwich-type monitoring assay system using an estrogen response element (ERE)-immobilized piezoelectric biosensor in combination with flow injection technique, has been developed for analysis of estrogen (E). The principle of the assay is that the estrogen receptor (ER) captures estrogen and then the complex is bound with ERE immobilized on the sensor. It was confirmed that initial binding of the ERE with ER is significantly accelerated by the formation of an E–ER complex. This kinetic difference was monitored by real-time measurement of the resonance frequency of the ERE piezoelectric biosensor and applied to detect 17β-estradiol. The calibration graph was linear in the range 10–100 nmol l–1 with a detection limit of 7.8 nmol l–1, an RSD of 5.9% for 50 nmol l–1 (6 replicates), and one run time of 4 min. Gradient flow injection on-line connection to an array of ERE piezoelectric biosensors is in progress for the simultaneous determination of endogenous and synthetic estrogens in drinking water and urine. In comparison with present chromatographic methods coupled with MS, the proposed technique is simple, flexible and cheap and has great potential in applications such as field and on-site monitoring and screen testing of endocrine disruptors.
用雌激素反应元件固定压电生物传感器的新型三明治式雌激素检测方法
本文提出了一种将雌激素反应元件(estrogen response element, ERE)固定化压电生物传感器与流动注射技术相结合的新型检测方法——三明治式检测系统。该检测方法的原理是雌激素受体(estrogen receptor, ER)捕获雌激素,然后将复合物与固定化在传感器上的ERE结合。经证实,E-ER复合物的形成显著加速了ERE与ER的初始结合。通过实时测量ERE压电生物传感器的共振频率来监测这种动力学差异,并将其用于检测17β-雌二醇。校准图在10-100 nmol - 1范围内呈线性,检出限为7.8 nmol - 1, 50 nmol - 1(6个重复)的RSD为5.9%,运行时间为4 min。梯度流动注射在线连接ERE压电生物传感器阵列,用于同时检测饮用水和尿液中的内源性和合成雌激素。与现有的色谱联用质谱技术相比,该技术简单、灵活、廉价,在内分泌干扰物的现场和现场监测和筛选检测等方面具有很大的应用潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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