UMR8638 and UMR8015, CNRS-Paris Descartes University, Faculté de Pharmacie, 4 av. de l'Observatoire, 75006 Paris, France.
J Am Chem Soc. 2010 Sep 29;132(38):13111-3. doi: 10.1021/ja1037885.
The supramolecular chiral recognition between rac-2a and several structured RNA leads to a distinct (19)F NMR signal splitting. The (19)F NMR analysis of the diastereomeric pairs formed upon binding of this racemic probe delivers a topological footprint of the RNA. This phenomenon can be exploited to investigate dynamic events involving structural equilibria, as demonstrated in a melting experiment. This work provides a proof of concept that small fluorinated moderate binders can act as external probes of RNA structures.
rac-2a 与几种结构 RNA 之间的超分子手性识别导致了明显的 (19)F NMR 信号分裂。通过对这种外消旋探针结合形成的非对映异构体对的 (19)F NMR 分析,得到了 RNA 的拓扑足迹。这种现象可用于研究涉及结构平衡的动态事件,如在熔融实验中所示。这项工作证明了一个概念,即小的氟化中等结合物可以作为 RNA 结构的外部探针。