DNA 导向自组装纳米天线对接位点的荧光增强。

Fluorescence enhancement at docking sites of DNA-directed self-assembled nanoantennas.

机构信息

NanoBioSciences Group, Institute for Physical and Theoretical Chemistry, Technische Universität Braunschweig, Hans-Sommer-Strasse 10, 38106 Braunschweig, Germany.

出版信息

Science. 2012 Oct 26;338(6106):506-10. doi: 10.1126/science.1228638.

DOI:10.1126/science.1228638

PMID:23112329

Abstract

We introduce self-assembled nanoantennas to enhance the fluorescence intensity in a plasmonic hotspot of zeptoliter volume. The nanoantennas are prepared by attaching one or two gold nanoparticles (NPs) to DNA origami structures, which also incorporated docking sites for a single fluorescent dye next to one NP or in the gap between two NPs. We measured the dependence of the fluorescence enhancement on NP size and number and compare it to numerical simulations. A maximum of 117-fold fluorescence enhancement was obtained for a dye molecule positioned in the 23-nanometer gap between 100-nanometer gold NPs. Direct visualization of the binding and unbinding of short DNA strands, as well as the conformational dynamics of a DNA Holliday junction in the hotspot of the nanoantenna, show the compatibility with single-molecule assays.

摘要

我们引入自组装纳米天线来增强皮升级体积等离子体热点中的荧光强度。纳米天线通过将一个或两个金纳米粒子 (NPs) 附着到 DNA 折纸结构上来制备，该结构还在一个 NPs 旁边或两个 NPs 之间的间隙中包含用于单个荧光染料的对接位点。我们测量了荧光增强对 NP 尺寸和数量的依赖性，并将其与数值模拟进行了比较。对于位于 100 纳米金 NPs 之间 23 纳米间隙中的染料分子，获得了高达 117 倍的荧光增强。短 DNA 链的结合和解离的直接可视化，以及 DNA 异源双链体在纳米天线热点中的构象动力学，表明与单分子测定法具有兼容性。

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DNA 导向自组装纳米天线对接位点的荧光增强。

Fluorescence enhancement at docking sites of DNA-directed self-assembled nanoantennas.

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