Pathways of ion-molecular interactions of nucleogenic phenyl cations with the nucleophilic centers of picolines.

Organic and Medicinal Chemistry Letters Pub Date : 2012-04-13 DOI:10.1186/2191-2858-2-14

Nadezhda E Shchepina, Viktor V Avrorin, Gennady A Badun, Nikolay A Bumagin, Scott B Lewis, Sergey N Shurov

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引用次数: 5

Abstract

Unlabelled:

Background: The nuclear-chemical method brought unique opportunity for synthesis of unknown and hardly available organic compounds. Presence of tritium labeling allows one-step preparation of radioactive markers for the investigation of chemical and biological processes.

Methods: The ion-molecular reactions of nucleogenic phenyl cations with 4-picoline have been carried out. The phenyl cations were generated by spontaneous tritium β-decay within the tritium-labeled benzene. Both additions to the nitrogen and substitutions about the aromatic ring were able to be studied simultaneously.

Results: Unusual substitutions on both the α- and β-positions of the ring system have been revealed.

Conclusion: By unknown direct phenylation of nitrogen atom tritium-labeled N-phenylpicolinium derivatives, perspective biological markers have been synthesized.

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生核苯基阳离子与吡啶亲核中心离子-分子相互作用的途径。

背景:核化学方法为合成未知和难以获得的有机化合物提供了独特的机会。氚标记的存在允许一步制备放射性标记物，用于化学和生物过程的研究。方法:用4-吡啶进行生核苯基阳离子的离子-分子反应。苯基阳离子是由氚β衰变在氚标记的苯中自发产生的。氮的加成和芳环的取代可以同时进行。结果:在环体系的α-和β-位置上发现了不寻常的取代。结论:通过氮原子氚标记的n -苯吡啶衍生物的未知直接苯基化，合成了有意义的生物标记物。

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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Organic and Medicinal Chemistry Letters

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