具有氢键诱导增强发射特性的新型D-A型荧光团的工程设计，用于灵敏检测活细胞和组织中的内源性次氯酸。

Engineering of a novel D-A type fluorophore with hydrogen bond-induced enhanced emission property for sensitively detecting endogenous HOCl in living cells and tissues.

作者信息

Wang Si-Min, Lou Xiaofeng, Xu Shuai, Song Zhi-Ling, Ren Tian-Bing, Huan Shuang-Yan, Yuan Lin, Zhang Xiao-Bing

机构信息

State Key Laboratory of Chemo/Biosensing and Chemometrics, College of Chemistry and Chemical Engineering, Hunan University, Changsha, 410082, People's Republic of China.

Shandong Key Laboratory of Biochemical Analysis, College of Chemistry and Molecular Engineering, Qingdao University of Science and Technology, Qingdao, 266042, China.

出版信息

Anal Bioanal Chem. 2023 Jul;415(18):4185-4196. doi: 10.1007/s00216-023-04550-9. Epub 2023 Jan 28.

DOI:10.1007/s00216-023-04550-9

PMID:36707448

Abstract

Fluorescence imaging has been widely employed for biomedical research and clinical diagnostics. With ease of synthesis and excellent photophysical properties, D-A type fluorophores are widely designed for fluorescence imaging. However, traditional D-A type fluorophores are solvatochromic which reduces the fluorescence brightness in the biological system. To solve this problem and build on our previous work, we devised a novel HIEE fluorophore MTC with typical anti-solvatochromic fluorescence. Furthermore, the activated fluorescent probe designed based on MTC showed excellent imaging performance. We believe that the strategy based on the fluorophores with typical anti-solvatohromic fluorescence can be a useful platform for designing fluorescent probes for high-brightness imaging in the biological system.

摘要

荧光成像已广泛应用于生物医学研究和临床诊断。由于易于合成且具有优异的光物理性质，D-A型荧光团被广泛设计用于荧光成像。然而，传统的D-A型荧光团具有溶剂化显色性，这降低了其在生物系统中的荧光亮度。为了解决这个问题并基于我们之前的工作，我们设计了一种具有典型反溶剂化显色荧光的新型HIEE荧光团MTC。此外，基于MTC设计的活化荧光探针表现出优异的成像性能。我们相信，基于具有典型反溶剂化显色荧光的荧光团的策略可以成为设计用于生物系统中高亮度成像的荧光探针的有用平台。

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具有氢键诱导增强发射特性的新型D-A型荧光团的工程设计，用于灵敏检测活细胞和组织中的内源性次氯酸。

Engineering of a novel D-A type fluorophore with hydrogen bond-induced enhanced emission property for sensitively detecting endogenous HOCl in living cells and tissues.

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