DNA模板化分子银荧光团

DNA-Templated Molecular Silver Fluorophores.

作者信息

Petty Jeffrey T, Story Sandra P, Hsiang Jung-Cheng, Dickson Robert M

机构信息

Department of Chemistry, Furman University, Greenville, SC 29613.

出版信息

J Phys Chem Lett. 2013 Apr 4;4(7):1148-1155. doi: 10.1021/jz4000142.

DOI:10.1021/jz4000142

PMID:23745165

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3670773/

Abstract

Conductive and plasmon-supporting noble metals exhibit an especially wide range of size-dependent properties, with discrete electronic levels, strong optical absorption, and efficient radiative relaxation dominating optical behavior at the ~10-atom cluster scale. In this Perspective, we describe the formation and stabilization of silver clusters using DNA templates and highlight the distinct spectroscopic and photophysical properties of the resulting hybrid fluorophores. Strong visible to near-IR emission from DNA-encapsulated silver clusters ranging in size from 5-11 atoms has been produced and characterized. Importantly, this strong Ag cluster fluorescence can be directly modulated and selectively recovered by optically controlling the dark state residence, even when faced with an overwhelming background. The strength and sequence sensitivity of the oligonucleotide-Ag interaction suggests strategies for fine tuning and stabilizing cluster-based emitters in a host of sensing and biolabeling applications that would benefit from brighter, more photostable, and quantifiable emitters in high background environments.

摘要

具有导电性和支持表面等离子体激元的贵金属展现出特别广泛的尺寸依赖性质，在约10个原子的团簇尺度下，离散的电子能级、强烈的光吸收以及高效的辐射弛豫主导着光学行为。在这篇展望文章中，我们描述了使用DNA模板形成和稳定银团簇的过程，并突出了所得杂化荧光团独特的光谱和光物理性质。已产生并表征了尺寸范围为5至11个原子的DNA包裹银团簇发出的从可见光到近红外的强烈发射。重要的是，即使面对压倒性的背景，这种强烈的银团簇荧光也可以通过光学控制暗态停留时间直接进行调制并选择性恢复。寡核苷酸 - 银相互作用的强度和序列敏感性为在众多传感和生物标记应用中微调并稳定基于团簇的发光体提供了策略，这些应用将受益于在高背景环境中更亮、更光稳定且可量化的发光体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/de29/3670773/646b2e3e4575/nihms459813f1.jpg

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