Rosselin Marie, Xiao Ye, Belhomme Ludovic, Lecommandoux Sébastien, Garanger Elisabeth
Universite Bordeaux, CNRS, Bordeaux INP, LCPO, UMR 5629, F-33600 Pessac, France.
ACS Macro Lett. 2019 Dec 17;8(12):1648-1653. doi: 10.1021/acsmacrolett.9b00862. Epub 2019 Dec 5.
Selective modifications at methionyl residues in proteins have attracted particular attention in recent years. Previously described methods to chemoselectively modify the methionine side chain in elastin-like polypeptides (ELPs) involved nucleophilic addition using alkyl halides or epoxides yielding a sulfonium group with a positive charge strongly affecting ELPs' physicochemical properties, in particular their thermal responsiveness. We herein explored the recently reported ReACT method (Redox-Activated Chemical Tagging) based on the use of oxaziridine derivatives, yielding an uncharged sulfimide as an alternative route for chemoselective modifications of methionine-containing ELPs in aqueous medium. The different synthetic strategies are herein compared in order to provide a furnished toolbox for further biorthogonal postmodifications of any protein polymers.
近年来,蛋白质中甲硫氨酰残基的选择性修饰受到了特别关注。先前描述的在类弹性蛋白多肽(ELPs)中化学选择性修饰甲硫氨酸侧链的方法涉及使用卤代烃或环氧化物进行亲核加成,生成带有正电荷的锍基团,这会强烈影响ELPs的物理化学性质,特别是它们的热响应性。我们在此探索了最近报道的基于使用氮丙啶氧化物衍生物的ReACT方法(氧化还原激活化学标记),该方法生成不带电荷的硫亚胺,作为在水性介质中对含甲硫氨酸的ELPs进行化学选择性修饰的替代途径。本文比较了不同的合成策略,以便为任何蛋白质聚合物的进一步生物正交后修饰提供一个完备的工具箱。
