用于染料 - 蛋白质荧光模块波长转换的双色团染料。

Bichromophoric dyes for wavelength shifting of dye-protein fluoromodules.

作者信息

Pham Ha H, Szent-Gyorgyi Christopher, Brotherton Wendy L, Schmidt Brigitte F, Zanotti Kimberly J, Waggoner Alan S, Armitage Bruce A

机构信息

Department of Chemistry, Carnegie Mellon University, 4400 Fifth Avenue, Pittsburgh, PA 15213, USA.

出版信息

Org Biomol Chem. 2015 Mar 28;13(12):3699-710. doi: 10.1039/c4ob02522a.

DOI:10.1039/c4ob02522a

PMID:25679477

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4520264/

Abstract

Dye-protein fluoromodules consist of fluorogenic dyes and single chain antibody fragments that form brightly fluorescent noncovalent complexes. This report describes two new bichromophoric dyes that extend the range of wavelengths of excitation or emission of existing fluoromodules. In one case, a fluorogenic thiazole orange (TO) was attached to an energy acceptor dye, Cy5. Upon binding to a protein that recognizes TO, red emission due to efficient energy transfer from TO to Cy5 replaces the green emission observed for monochromophoric TO bound to the same protein. Separately, TO was attached to a coumarin that serves as an energy donor. The same green emission is observed for coumarin-TO and TO bound to a protein, but efficient energy transfer allows violet excitation of coumarin-TO, versus longer wavelength, blue excitation of monochromophoric TO. Both bichromophores exhibit low nanomolar KD values for their respective proteins, >95% energy transfer efficiency and high fluorescence quantum yields.

摘要

染料 - 蛋白质荧光模块由荧光染料和单链抗体片段组成，它们形成明亮荧光的非共价复合物。本报告描述了两种新的双色团染料，它们扩展了现有荧光模块的激发或发射波长范围。在一种情况下，将荧光噻唑橙（TO）连接到能量受体染料Cy5上。当与识别TO的蛋白质结合时，由于从TO到Cy5的有效能量转移而产生的红色发射取代了与相同蛋白质结合的单发色团TO所观察到的绿色发射。另外，将TO连接到用作能量供体的香豆素上。香豆素 - TO和与蛋白质结合的TO观察到相同的绿色发射，但有效能量转移使得香豆素 - TO能够进行紫光激发，而单发色团TO则是较长波长的蓝光激发。两种双色团对各自的蛋白质都表现出低纳摩尔的KD值、> 95％的能量转移效率和高荧光量子产率。

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