Unprecedented Photoinduced-Electron-Transfer Probe with a Turn-ON Chemiluminescence Mode-of-Action

ChemRxiv Pub Date : 2024-09-18 DOI:10.26434/chemrxiv-2024-vj8f6

Doron, Shabat, Maya, David, Sara, Gutkin, Raj V., Nithun, Muhammad, Jbara

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Abstract

PeT-based fluorescent probes were demonstrated to be powerful tools for detection and imaging, owing to their significant fluorescence enhancement in response to specific targets. While numerous examples of fluorescence-based PeT have been frequently reported, there is not even a single example of a PeT probe that operates via a chemiluminescence mode. Here we report the first PeT-based turn-on probe that acts via a chemiluminescent operation mode. We designed, synthesized, and evaluated a novel chemiluminescent probe, featuring a PeT-based turn-on mechanism. The probe consists of a phenoxy-1,2-dioxetane, linked to an azide unit that acts as a PeT quencher. Upon cycloaddition of a strained cycloalkyne with the azide, a triazole-dioxetane is formed, which undergoes relatively slow chemiexcitation, resulting in a measurement window with an exceptionally high signal-to-noise ratio (over 5000-fold). The PeT-dioxetane probe could effectively detect and image two model proteins labeled with strained cycloalkyne units (Myc-DBCO and Max-DBCO) through either NHS or maleimide conjugations. Comparative analysis shows that our PeT-based chemiluminescent probe significantly outperforms a commercially available fluorescent analog. We anticipate that the insights gained from this study will facilitate the development of additional chemiluminescent probes utilizing various PeT-quenching pathways.

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具有开启化学发光作用模式的前所未有的光诱导电子转移探针

基于 PeT 的荧光探针已被证明是检测和成像的强大工具，因为它们能显著增强对特定目标的荧光反应。虽然基于荧光的 PeT 的例子屡见报端，但通过化学发光模式工作的 PeT 探针却连一个例子都没有。在此，我们报告了首个通过化学发光工作模式工作的基于 PeT 的开启探针。我们设计、合成并评估了一种新型化学发光探针，其特点是基于 PeT 的开启机制。该探针由一个苯氧基-1,2-二氧杂环丁烷和一个叠氮化物单元组成，叠氮化物单元是一种 PeT 淬灭剂。当受约束环烷烃与叠氮化物发生环加成反应时，就会形成三唑-二氧杂环丁烷，其化学激发速度相对较慢，从而产生一个信噪比极高（超过 5000 倍）的测量窗口。PeT 二氧杂环丁烷探针通过 NHS 或马来酰亚胺共轭，可以有效地检测和成像两种用应变环炔单元（Myc-DBCO 和 Max-DBCO）标记的模型蛋白质。对比分析表明，我们基于 PeT 的化学发光探针明显优于市售的荧光类似物。我们预计，从这项研究中获得的启示将有助于开发更多利用各种 PeT 淬灭途径的化学发光探针。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ChemRxiv

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