静电相互作用调节的π共轭肽的碳二亚胺燃料组装

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY
Dr. Ze-Fan Yao, Yuyao Kuang, Phillip Kohl, Dr. Youli Li, Prof. Dr. Herdeline Ann M. Ardoña
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引用次数: 2

摘要

多肽天然具有刺激适应性结构构象,有利于赋予合成材料动态功能。在这里,我们报道了一种基于碳二亚胺的方法,结合静电调制,来指导π共轭肽自组装,并在组装触发器消耗后对热拆卸信号做出反应。本文利用季硫吩功能化肽作为模型体系来研究非平衡状态下纳米结构的形成。多肽被设计成在末端有天冬氨酸,以便在添加碳二亚胺时形成分子内酸酐,从而减少静电排斥并促进组装。我们发现,以碳二亚胺为燃料的组装和随后的热辅助拆卸可以通过肽单体的净电荷来调节,这表明一种可以通过序列设计编码的组装机制。这种基于碳二酰亚胺的设计π共轭体系组装方法为开发具有动态和刺激响应结构可控形成的生物电子超分子材料提供了独特的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Carbodiimide-Fueled Assembly of π-Conjugated Peptides Regulated by Electrostatic Interactions**

Carbodiimide-Fueled Assembly of π-Conjugated Peptides Regulated by Electrostatic Interactions**

Peptides naturally have stimuli-adaptive structural conformations that are advantageous for endowing synthetic materials with dynamic functionalities. Here, we report a carbodiimide-based approach, combined with electrostatic modulation, to instruct π-conjugated peptides to self-assemble and be responsive to thermal disassembly cues upon consumption of the assembly trigger. Quaterthiophene-functionalized peptides are utilized as a model system herein to study the formation of nanostructures at non-equilibrium states. Peptides were designed to have aspartic acid at the termini to allow intramolecular anhydride formation upon adding carbodiimide, which consequentially reduces the electrostatic repulsion and facilitates assembly. We show that the carbodiimide-fueled assembly and subsequent thermally assisted disassembly can be modulated by the net charge of the peptidic monomers, suggesting an assembly mechanism that can be encoded by sequence design. This carbodiimide-based approach for the assembly of designer π-conjugated systems offers a unique opportunity to develop bioelectronic supramolecular materials with controllable formation of dynamic and stimuli-responsive structures.

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