Dissecting Hofmeister Effects: Direct Anion-Amide Interactions Are Weaker than Cation-Amide Binding

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• 作者：Vasileios Balos ; Dr. Heejae Kim ; Prof. Mischa Bonn and Dr. Johannes Hunger
• 刊名：Angewandte Chemie International Edition
• 出版年：2016
• 出版时间：July 4, 2016
• 年：2016
• 卷：55
• 期：28
• 页码：8125-8128
• 全文大小：1365K
• ISSN：1521-3773

文摘

Whereas there is increasing evidence for ion-induced protein destabilization through direct ion–protein interactions, the strength of the binding of anions to proteins relative to cation–protein binding has remained elusive. In this work, the rotational mobility of a model amide in aqueous solution was used as a reporter for the interactions of different anions with the amide group. Protein-stabilizing salts such as KCl and KNO₃ do not affect the rotational mobility of the amide. Conversely, protein denaturants such as KSCN and KI markedly reduce the orientational freedom of the amide group. Thus these results provide evidence for a direct denaturation mechanism through ion–protein interactions. Comparing the present findings with results for cations shows that in contrast to common belief, anion–amide binding is weaker than cation–amide binding.