光响应性螺旋折叠体：通过双螺旋形成和光诱导质子化实现构象控制

Photoresponsive Helical Foldamers: Conformational Control Through Double Helix Formation and Light-Induced Protonation.

作者信息

Hardoin Louis, Kdouh Rana, Aidibi Youssef, Azar Soussana, Siegler Benjamin, Allain Magali, Goeb Sébastien, Levillain Eric, Bouit Pierre-Antoine, Galangau Olivier, Sallé Marc, Canevet David

机构信息

Univ Angers, CNRS, MOLTECH-ANJOU-UMR 6226, F-49000, Angers, France.

Univ Rennes, CNRS, ISCR-UMR 6226, F-35000, Rennes, France.

出版信息

Chemistry. 2025 Feb 20;31(11):e202403771. doi: 10.1002/chem.202403771. Epub 2025 Jan 16.

DOI:10.1002/chem.202403771

PMID:39749723

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11840663/

Abstract

Helical foldamers constitute particularly relevant targets in the field of host-guest chemistry, be that as hosts or substrates. In this context, the strategies reported so far to control the dimensions and shape of foldamers mainly involve modifications of the skeleton through covalent synthesis. Herein, we prepared an oligopyridine dicarboxamide foldamer substituted by photo-active tetraphenylethylene units (TPE). We demonstrate that it is possible to toggle the length of a helical foldamer by two means. First, the elongation of foldamers can be tuned by adjusting the concentration, as demonstrated by DOSY NMR spectroscopy and X-ray diffraction analyses on both the single and the double helix structures. Secondly, and in a more original manner, a photo-induced protonation process triggered by TPE units promotes a novel pathway to unfold helical foldamers, leading to dramatic conformational and spectroscopic changes.

摘要

螺旋折叠体在主客体化学领域是特别相关的目标，无论是作为主体还是底物。在这种背景下，迄今为止报道的控制折叠体尺寸和形状的策略主要涉及通过共价合成对骨架进行修饰。在此，我们制备了一种由光活性四苯乙烯单元（TPE）取代的寡吡啶二羧酰胺折叠体。我们证明可以通过两种方式调节螺旋折叠体的长度。首先，如通过对单螺旋和双螺旋结构的扩散排序核磁共振光谱（DOSY NMR）和X射线衍射分析所表明的，折叠体的伸长可以通过调节浓度来调控。其次，以一种更独特的方式，由TPE单元引发的光致质子化过程促进了一种使螺旋折叠体展开的新途径，导致显著的构象和光谱变化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bb09/11840663/62b8ebdd8e4a/CHEM-31-e202403771-g007.jpg

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光响应性螺旋折叠体：通过双螺旋形成和光诱导质子化实现构象控制

Photoresponsive Helical Foldamers: Conformational Control Through Double Helix Formation and Light-Induced Protonation.

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