Fluorescence Lifetime Based Probes for Water Mediated Proton Transfer and Weak Bases

IF 3 4区化学 Q3 CHEMISTRY, PHYSICAL

ChemPhotoChem Pub Date : 2025-07-22 DOI:10.1002/cptc.202500183

Marko H. Nowack, Bo W. Laursen

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Abstract

A new concept for fluorescent probes capable of reporting on the concentrations of weak bases in aqueous solution was recently reported, and suggested as a potential tool for studying cellular buffer systems and metabolite pools (Jakobsen et al., Chem Sci, 2025, 16, 7450). These probes are based on proton coupled electron transfer (PCET) quenching of a phenol substituted diazaoxatriangulenium (DAOTA⁺) fluorophore, promoted by the weak bases acting as proton acceptors for the phenol group. The fluorescence lifetime is reduced as function of the proton transfer (PT) rate and base concentration. Herein, we report the synthesis of a new series of related DAOTA+ probes designed to elucidate the involvement of water bridges in PT. The 5-hydroxy-3-benzoic acid substituted DAOTA⁺ probe showcases intramolecular PT that can only happen by water bridging between the carboxylate proton acceptor and phenol donor groups. This exemplifies how the PCET based PT probes can be designed to investigate the role of Grotthuss-like water bridges in acid/base reactions. Furthermore, the negatively charged carboxylate group, through electrostatic repulsion, prohibits ground state association between the probe and negatively charged bases. These new probes showcase a further development of dynamic PCET probes for studies of PT rates in complex systems.

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基于荧光寿命的水介导质子转移和弱碱探针

最近报道了一种能够报告水溶液中弱碱浓度的荧光探针的新概念，并建议将其作为研究细胞缓冲系统和代谢物池的潜在工具（Jakobsen et al., Chem Sci, 2025, 16,7450）。这些探针是基于质子耦合电子转移（PCET）猝灭苯酚取代的重氮杂三角（DAOTA+）荧光团，由弱碱作为苯酚基团的质子受体促进。荧光寿命随质子转移（PT）速率和碱浓度的变化而减小。本文中，我们合成了一系列新的相关的DAOTA+探针，旨在阐明水桥在PT中的作用。5-羟基-3-苯甲酸取代的DAOTA+探针显示了分子内PT只能通过羧酸质子受体和苯酚给体基团之间的水桥而发生。这说明了基于PCET的PT探针如何被设计用于研究grotthuss样水桥在酸碱反应中的作用。此外，带负电荷的羧酸基通过静电斥力阻止探针和带负电荷的碱基之间的基态结合。这些新探针展示了动态PCET探针在复杂系统中PT率研究的进一步发展。

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来源期刊

ChemPhotoChem Chemistry-Physical and Theoretical Chemistry

CiteScore

5.80

自引率

5.40%

发文量

165

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