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3-羟基黄酮衍生物:用于细胞荧光成像的有前景的支架

3-Hydroxyflavone derivatives: promising scaffolds for fluorescent imaging in cells.

作者信息

Zhao Xueke, Li Xiang, Liang Shuyu, Dong Xiongwei, Zhang Zhe

机构信息

National Local Joint Engineering Laboratory for Advanced Textile Processing and Clean Production, Wuhan Textile University Wuhan Hubei 430073 P. R. China

College of Chemistry and Molecular Engineering, Peking University Beijing 100871 P. R. China

出版信息

RSC Adv. 2021 Aug 27;11(46):28851-28862. doi: 10.1039/d1ra04767a. eCollection 2021 Aug 23.

DOI:10.1039/d1ra04767a
PMID:35478549
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9038104/
Abstract

As a typical class of excited-state intramolecular proton transfer (ESIPT) molecules, 3-hydroxyflavone derivatives (3HF, also known as flavonols) have received much attention recently. Thereinto, the role of hydrophobic microenvironment is significant importance in promoting the process and effects of ESIPT, which can be regulated by the solvents, the existence of metal ions and proteins rich with α-helix structures or the advanced DNA structures. Considering that plenty of biological macromolecules offer cellular hydrophobic microenvironment, enhancing the ESIPT effects and resulting in dual emission, 3HF could be a promising scaffold for the development of fluorescent imaging in cells. Furthermore, as the widespread occurance of compounds with biological activity in plants, 3HF derivatives are much more secure to be cellular diagnosis and treatment integrated fluorescent probes. In this review, multiple regulatory strategies for the fluorescence emission of 3HF derivatives have been collectively and comprehensively analyzed, including the solvent effects, metal chelation, interaction with proteins or DNAs, which would be beneficial for ESIPT-promoting or ESIPT-blocking processes and then enhance or control the fluorescence emission of 3HF effectively. We expect that this review would provide a new perspective to develop novel 3HF-based fluorescent sensors for imaging in cells and plants.

摘要

作为典型的激发态分子内质子转移(ESIPT)分子,3-羟基黄酮衍生物(3HF,也称为黄酮醇)近年来备受关注。其中,疏水微环境在促进ESIPT的过程和效果方面具有重要作用,其可通过溶剂、金属离子以及富含α-螺旋结构的蛋白质或高级DNA结构的存在来调节。鉴于大量生物大分子提供细胞疏水微环境,增强ESIPT效应并导致双重发射,3HF有望成为用于细胞荧光成像发展的支架。此外,由于植物中具有生物活性的化合物广泛存在,3HF衍生物作为细胞诊断与治疗一体化荧光探针更为安全。在本综述中,对3HF衍生物荧光发射的多种调控策略进行了综合分析,包括溶剂效应、金属螯合、与蛋白质或DNA的相互作用,这将有利于促进或阻断ESIPT过程,进而有效增强或控制3HF的荧光发射。我们期望本综述能为开发用于细胞和植物成像的新型基于3HF的荧光传感器提供新的视角。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f0ca/9038104/c99a4ec7bfed/d1ra04767a-f10.jpg
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