Richards Chris I, Choi Sungmoon, Hsiang Jung-Cheng, Antoku Yasuko, Vosch Tom, Bongiorno Angelo, Tzeng Yih-Ling, Dickson Robert M
School of Chemistry and Biochemistry and Petit Institute for Biosciences and Bioengineering, Georgia Institute of Technology, Atlanta, Georgia 30332-0400, USA.
J Am Chem Soc. 2008 Apr 16;130(15):5038-9. doi: 10.1021/ja8005644. Epub 2008 Mar 18.
Single-stranded oligonucleotides stabilize highly fluorescent Ag nanoclusters, with emission colors tunable via DNA sequence. We utilized DNA microarrays to optimize these scaffold sequences for creating nearly spectrally pure Ag nanocluster fluorophores that are highly photostable and exhibit great buffer stability. Five different nanocluster emitters have been created with tunable emission from the blue to the near-IR and excellent photophysical properties. Ensemble and single molecule fluorescence studies show that oligonucleotide encapsulated Ag nanoclusters exhibit significantly greater photostability and higher emission rates than commonly used cyanine dyes.
单链寡核苷酸可稳定高荧光银纳米簇,其发射颜色可通过DNA序列进行调节。我们利用DNA微阵列优化这些支架序列,以创建几乎光谱纯的银纳米簇荧光团,这些荧光团具有高度的光稳定性和出色的缓冲稳定性。现已创建了五种不同的纳米簇发射体,其发射可从蓝色调节至近红外,且具有优异的光物理性质。整体和单分子荧光研究表明,寡核苷酸包裹的银纳米簇比常用的花菁染料表现出显著更高的光稳定性和更高的发射速率。