Taniguchi Yoshimasa, Matsumoto Rie, Kadota Tomoyuki
Kirin Central Research Institute, Research & Development Division, Kirin Holdings Company, Ltd., 1-13-5, Fukuura, Kanazawa-ku, Yokohama-shi, Kanagawa, 236-0004, Japan.
Chemistry. 2020 Dec 4;26(68):15799-15803. doi: 10.1002/chem.202002504. Epub 2020 Nov 11.
The crystalline sponge (CS) method allows structural elucidation of a target compound (guest) in solution by single crystal X-ray diffraction through trapping the guest into the CS framework. In principle, the CS method is inapplicable to reactive compounds that break the CS framework, such as acidic, basic, or nucleophilic ones. Here, a solution to this problem is disclosed wherein an ion pair of the guest compound is formed during the guest-soaking step by adding a suitable reagent. The ion pair can be observed and does not damage the CS framework. Using the developed method, amino, guanidino, and amidino compounds have been successfully analyzed as ion pairs with sulfonic acids. Practical utility has been shown because the absolute configurations of optically resolved amine derivatives were revealed with only a few micrograms. This demonstrates that the ion-pair-soaking method is simple and expands the range of compounds applicable to the CS method.
晶体海绵(CS)法通过将客体捕获到CS框架中,利用单晶X射线衍射对溶液中的目标化合物(客体)进行结构解析。原则上,CS法不适用于会破坏CS框架的活性化合物,如酸性、碱性或亲核性化合物。在此,公开了一种解决该问题的方法,即在客体浸泡步骤中通过添加合适的试剂形成客体化合物的离子对。该离子对能够被观察到且不会破坏CS框架。利用所开发的方法,氨基、胍基和脒基化合物已成功作为与磺酸形成的离子对进行了分析。已显示出实际应用价值,因为仅用几微克就揭示了旋光拆分胺衍生物的绝对构型。这表明离子对浸泡法简单且扩展了适用于CS法的化合物范围。
