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银胶体表面附近标记蛋白质的荧光特性。

Fluorescence properties of labeled proteins near silver colloid surfaces.

作者信息

Maliwal Badri P, Malicka Joanna, Gryczynski Ignacy, Gryczynski Zygmunt, Lakowicz Joseph R

机构信息

Center for Fluorescence Spectroscopy, University of Maryland at Baltimore, Department of Biochemistry and Molecular Biology, 725 West Lombard Street, Baltimore, MD 21201, USA.

出版信息

Biopolymers. 2003 Dec;70(4):585-94. doi: 10.1002/bip.10501.

DOI:10.1002/bip.10501
PMID:14648768
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2737415/
Abstract

The fluorescence properties of a monolayer of labeled avidin molecules were studied near silver island films. We first adsorbed a monolayer of biotinylated-BSA as a base that was used to capture labeled avidin molecules. For labeled avidin on silver island films, we observed an increase of the fluorescence intensity of between 18 and 80 with one-photon excitation and up to several hundredfold or larger with two-photon excitation. The probes were moderately more photostable in the presence of silver islands. There was also a dramatic decrease in the lifetimes with the amplitude-weighted values decreasing from 7- to 35-fold. The data suggest that these spectral changes are due to both increased rates of excitation near the metallic particles and increases in the rates of radiative decay. Because these silver island surfaces are very heterogeneous, we are hopeful that larger increases in intensity and photostability can be obtained for probes situated at an optimal distance from the ideal island surfaces.

摘要

研究了标记抗生物素蛋白分子单层在银岛膜附近的荧光特性。我们首先吸附一层生物素化牛血清白蛋白作为基础层,用于捕获标记的抗生物素蛋白分子。对于银岛膜上的标记抗生物素蛋白,我们观察到单光子激发下荧光强度增加了18至80倍,双光子激发下增加了数百倍甚至更大。在银岛存在的情况下,探针的光稳定性略有提高。寿命也有显著降低,幅度加权值从7倍降至35倍。数据表明,这些光谱变化是由于金属颗粒附近激发速率的增加以及辐射衰减速率的增加。由于这些银岛表面非常不均匀,我们希望对于位于距理想岛表面最佳距离处的探针,能够实现强度和光稳定性的更大提高。

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