par Singh, Anurag 
;Halgreen, Lau ;Panda, Priyanka ;Torres Huerta, Aaron ;Tumanov, Nikolay;Wouters, Johan ;Valkenier, Hennie
Référence Chemistry, e02050
Publication Publié, 2025-08-19
;Halgreen, Lau ;Panda, Priyanka ;Torres Huerta, Aaron ;Tumanov, Nikolay;Wouters, Johan ;Valkenier, Hennie Référence Chemistry, e02050
Publication Publié, 2025-08-19
Article révisé par les pairs
| Résumé : | Achieving selectivity is one of the challenges in developing anion receptors for transmembrane transport. This can be achieved through larger molecular designs that encapsulate the anion efficiently, or by using alternative binding motifs instead of the most commonly used NH-based hydrogen bond donors. In this study, we present a series of small chloride receptors based on α-cyanostilbenes that use CH-based hydrogen bonds. By varying the substituents, we discovered that the compound containing four trifluoromethyl groups and a nitro group in addition to the two cyano groups exhibited the greatest affinity for chloride and the fastest chloride transport rates, surpassing the performance of reported triazole-based compound. Furthermore, this compound showed clear selectivity for transporting chloride over hydroxide, bicarbonate and fluoride anions. The activity, selectivity and deliverability of this compound make it a promising candidate for the treatment of chloride channelopathies. |
