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基于亲核芳香取代反应的硫化氢选择性比色探针的研制。

Development of selective colorimetric probes for hydrogen sulfide based on nucleophilic aromatic substitution.

机构信息

Department of Chemistry and Institute of Molecular Biology, University of Oregon, Eugene, Oregon 97403-1253, USA.

出版信息

J Org Chem. 2013 Jul 5;78(13):6550-7. doi: 10.1021/jo4008095. Epub 2013 Jun 17.

Abstract

Hydrogen sulfide is an important biological signaling molecule and an important environmental target for detection. A major challenge in developing H2S detection methods is separating the often similar reactivity of thiols and other nucleophiles from H2S. To address this need, the nucleophilic aromatic substitution (SNAr) reaction of H2S with electron-poor aromatic electrophiles was developed as a strategy to separate H2S and thiol reactivity. Treatment of aqueous solutions of nitrobenzofurazan (7-nitro-1,2,3-benzoxadiazole, NBD) thioethers with H2S resulted in thiol extrusion and formation of nitrobenzofurazan thiol (λmax = 534 nm). This reactivity allows for unwanted thioether products to be converted to the desired nitrobenzofurazan thiol upon reaction with H2S. The scope of the reaction was investigated using a Hammett linear free energy relationship study, and the determined ρ = +0.34 is consistent with the proposed SN2Ar reaction mechanism. The efficacy of the developed probes was demonstrated in buffer and in serum with associated submicromolar detection limits as low as 190 nM (buffer) and 380 nM (serum). Furthermore, the sigmoidal response of nitrobenzofurazan electrophiles with H2S can be fit to accurately quantify H2S. The developed detection strategy offers a manifold for H2S detection that we foresee being applied in various future applications.

摘要

硫化氢是一种重要的生物信号分子,也是环境检测的重要目标。开发硫化氢检测方法的主要挑战是将硫醇和其他亲核试剂的反应性与硫化氢分离。为了解决这一需求,开发了硫化氢与缺电子芳香族亲电试剂的亲核芳香取代(SNAr)反应,作为分离硫化氢和硫醇反应性的策略。将硝基苯并呋咱(7-硝基-1,2,3-苯并恶二唑,NBD)硫醚的水溶液与硫化氢处理,导致硫醇排出并形成硝基苯并呋咱硫醇(λmax = 534nm)。这种反应性使得不想要的硫醚产物在与硫化氢反应时可以转化为所需的硝基苯并呋咱硫醇。通过使用哈米特线性自由能关系研究调查了反应的范围,确定的 ρ = +0.34 与所提出的 SN2Ar 反应机制一致。在缓冲液和血清中,所开发的探针的功效得到了证明,其相关的亚毫摩尔检测限低至 190 nM(缓冲液)和 380 nM(血清)。此外,硝基苯并呋咱亲电试剂与硫化氢的 S 形响应可以拟合以准确定量硫化氢。所开发的检测策略为硫化氢检测提供了一种手段,我们预计它将在未来的各种应用中得到应用。

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