Real-Time Reaction Monitoring of Azide–Alkyne Cycloadditions Using Benchtop NMR-Based Signal Amplification by Reversible Exchange (SABRE)

IF 4.6 Q1 CHEMISTRY, ANALYTICAL

ACS Measurement Science Au Pub Date : 2023-01-10 DOI:10.1021/acsmeasuresciau.2c00065

Hye Jin Jeong, Sein Min, Juhee Baek, Jisu Kim, Jean Chung and Keunhong Jeong*,

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引用次数: 0

Abstract

Rufinamide, possessing a triazole ring, is a new antiepileptic drug (AED) relatively well-absorbed in the lower dose range (10 mg/kg per day) and is currently being used in antiepileptic medications. Triazole derivatives can interact with various enzymes and receptors in biological systems via diverse non-covalent interactions, thus inducing versatile biological effects. Strain-promoted azide–alkyne cycloaddition (SPAAC) is a significant method for obtaining triazoles, even under physiological conditions, in the absence of a copper catalyst. To confirm the progress of chemical reactions under biological conditions, research on reaction monitoring at low concentrations is essential. This promising strategy is gaining acceptance for applications in fields such as drug development and nanoscience. We investigated the optimum Ir catalyst and magnetic field for achieving maximum proton hyperpolarization transfer in triazole derivatives. These reactions were analyzed using signal amplification by reversible exchange (SABRE) to overcome the limitations of low sensitivity in nuclear magnetic resonance spectroscopy, when monitoring copper-free click reactions in real time. Finally, a more versatile copper-catalyzed click reaction was monitored in real time, using a 60 MHz benchtop NMR system, in order to analyze the reaction mechanism.

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基于可逆交换(SABRE)的台式核磁共振信号放大技术实时监测叠氮-炔环加成反应

鲁非酰胺具有三唑环，是一种新的抗癫痫药物（AED），在较低剂量范围（每天10 mg/kg）内吸收相对较好，目前正在抗癫痫药物中使用。三唑衍生物可以通过多种非共价相互作用与生物系统中的各种酶和受体相互作用，从而诱导多种生物效应。菌株促进的叠氮化物-炔烃环加成（SPAAC）是获得三唑的一种重要方法，即使在生理条件下，在没有铜催化剂的情况下也是如此。为了证实生物条件下化学反应的进展，研究低浓度下的反应监测至关重要。这种有前景的策略正在药物开发和纳米科学等领域获得应用。我们研究了在三唑衍生物中实现最大质子超极化转移的最佳Ir催化剂和磁场。在实时监测无铜点击反应时，使用可逆交换信号放大（SABRE）分析这些反应，以克服核磁共振波谱中灵敏度低的局限性。最后，使用60MHz台式NMR系统实时监测了更通用的铜催化点击反应，以分析反应机理。

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来源期刊

ACS Measurement Science Au 化学计量学-

CiteScore

5.20

自引率

0.00%

发文量

期刊介绍： ACS Measurement Science Au is an open access journal that publishes experimental computational or theoretical research in all areas of chemical measurement science. Short letters comprehensive articles reviews and perspectives are welcome on topics that report on any phase of analytical operations including sampling measurement and data analysis. This includes:Chemical Reactions and SelectivityChemometrics and Data ProcessingElectrochemistryElemental and Molecular CharacterizationImagingInstrumentationMass SpectrometryMicroscale and Nanoscale systemsOmics (Genomics Proteomics Metabonomics Metabolomics and Bioinformatics)Sensors and Sensing (Biosensors Chemical Sensors Gas Sensors Intracellular Sensors Single-Molecule Sensors Cell Chips Arrays Microfluidic Devices)SeparationsSpectroscopySurface analysisPapers dealing with established methods need to offer a significantly improved original application of the method.