Devkota Govinda Prasad, Carson William P, Hartley C Scott
Department of Chemistry & Biochemistry, Miami University, Oxford, Ohio 45056, United States.
J Org Chem. 2023 Feb 3;88(3):1331-1338. doi: 10.1021/acs.joc.2c01858. Epub 2023 Jan 17.
Control over the folding of oligomers, be it broad induction of a preferred helical handedness or subtle changes in the orientations of individual functional groups, is important for applications ranging from molecular recognition to long-range conformational communication. Here, we report a series of -phenylene hexamers functionalized with achiral and chiral amides at their termini. NMR spectroscopy, taking advantage of F labeling, allows multiple conformers to be detected for each compound. In combination with CD spectroscopy and DFT calculations, specific geometries corresponding to each conformer have been identified and quantified. General conclusions about the effect of sterics and the amide linker on conformational behavior have been drawn, revealing some similarities to and key differences from previously reported imines. A model for twist sense control has been developed that is supported by computational models.
控制寡聚物的折叠,无论是广泛诱导出优选的螺旋手性还是单个官能团取向的细微变化,对于从分子识别到远程构象通讯等一系列应用都很重要。在此,我们报道了一系列在其末端用非手性和手性酰胺官能化的亚苯基六聚体。利用¹⁹F标记的核磁共振光谱法能够检测出每种化合物的多个构象异构体。结合圆二色光谱法和密度泛函理论计算,已识别并量化了与每个构象异构体相对应的特定几何结构。得出了关于空间位阻和酰胺连接基对构象行为影响的一般性结论,揭示了与先前报道的亚胺的一些相似之处和关键差异。已开发出一种扭转方向控制模型,该模型得到了计算模型的支持。
