dsm-firmenich, Science and Research, Basel, Switzerland.
J Labelled Comp Radiopharm. 2023 Dec;66(14):461-466. doi: 10.1002/jlcr.4067. Epub 2023 Nov 20.
Triazolinediones are an important class of derivatization agents that have found application in various research disciplines. Their unique reactivity often allows precise and selective tagging of relevant molecular scaffolds to facilitate structural elucidation, tracking in biological systems, and stabilization of labile compounds. Recent research efforts mainly focused on the development of novel fluorescent and ionizable or isotopically labeled tags improving the quantification and identification of the parent molecule by suitable analytical methods. However, these concepts often lack the ability to improve properties facilitating the analysis by nuclear magnetic resonance (NMR) spectroscopy. We herein describe the first synthesis of C and N labeled [3,5- C ,4- N]4-phenyl-1,2,4-triazoline-3,5-dione utilizing the Cookson/Zinner-Deucker synthesis of urazoles. The introduced isotopic labels are ideally suited to support the structural elucidation of unknown and complex derivatization mixtures by NMR, thereby exploiting the increased sensitivity of detecting long-range J and additional J and J couplings within the derivatized compounds of interest.
三唑啉二酮是一类重要的衍生化试剂,已在多个研究领域得到应用。其独特的反应性通常允许对相关分子支架进行精确和选择性标记,以促进结构阐明、在生物系统中的追踪和不稳定化合物的稳定化。最近的研究工作主要集中在开发新型荧光和可离子化或同位素标记的标签上,以通过适当的分析方法提高母体分子的定量和鉴定。然而,这些概念通常缺乏通过核磁共振(NMR)光谱分析来改善性能的能力。本文首次利用 Cookson/Zinner-Deucker 合成尿嘧啶的方法合成了 C 和 N 标记的 [3,5- C,4- N]4-苯基-1,2,4-三唑啉-3,5-二酮。引入的同位素标记非常适合通过 NMR 支持未知和复杂衍生化混合物的结构阐明,从而利用衍生化化合物中长程 J 和附加 J 和 J 偶合的检测灵敏度来提高感兴趣的化合物的灵敏度。
