等离子体纳米传感器阵列用于基于多重 DNA 的病原体检测。

Plasmonic Nanosensor Array for Multiplexed DNA-based Pathogen Detection.

机构信息

Leibniz Institute of Photonic Technology (IPHT) Jena , Member of the Leibniz Research Alliance - Leibniz Health Technologies , Albert-Einstein-Straße 9 , 07745 Jena , Germany.

Jena University Hospital , Friedrich-Schiller-University , Teichgraben 8 , 07743 Jena , Germany.

出版信息

ACS Sens. 2019 Feb 22;4(2):335-343. doi: 10.1021/acssensors.8b01073. Epub 2019 Feb 4.

DOI:10.1021/acssensors.8b01073

PMID:30657315

Abstract

In this research we introduce a plasmonic nanoparticle based optical biosensor for monitoring of molecular binding events. The sensor utilizes spotted gold nanoparticle arrays as sensing platform. The nanoparticle spots are functionalized with capture DNA sequences complementary to the analyte (target) DNA. Upon incubation with the target sequence, it will bind on the respectively complementary functionalized particle spot. This binding changes the local refractive index, which is detected spectroscopically as the resulting changes of the localized surface plasmon resonance (LSPR) peak wavelength. In order to increase the signal, a small gold nanoparticle label is introduced. The binding can be reversed using chemical means (10 mM HCl). It is demonstrated that multiplexed detection and identification of several fungal pathogen DNA sequences subsequently on one sensor array are possible by this approach.

摘要

在这项研究中，我们介绍了一种基于等离子体纳米粒子的光学生物传感器，用于监测分子结合事件。该传感器利用斑点金纳米粒子阵列作为传感平台。纳米粒子斑点用与分析物（靶标）DNA 互补的捕获 DNA 序列功能化。与靶序列孵育后，它将结合在相应的互补功能化颗粒点上。这种结合改变了局部折射率，这可以通过局部表面等离子体共振（LSPR）峰波长的变化来光谱检测到。为了增加信号，引入了一个小金纳米粒子标记。可以通过化学手段（10 mM HCl）逆转结合。通过这种方法，可以证明在一个传感器阵列上同时检测和识别几种真菌病原体 DNA 序列是可行的。

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等离子体纳米传感器阵列用于基于多重 DNA 的病原体检测。

Plasmonic Nanosensor Array for Multiplexed DNA-based Pathogen Detection.

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