A water playground for peptide re-assembly from fibrils to plates.

Simone Adorinni, Marina Kurbasic, Ana M Garcia, Slavko Kralj, Ottavia Bellotto, Erica Scarel, Paolo Pengo, Rita De Zorzi, Michele Melchionna, Attilivio V Vargiu, Silvia Marchesan
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Abstract

Short-peptide amyloid assembly and disassembly play crucial roles in various research fields, which range from addressing pathologies that lack therapeutic solutions to the development of innovative soft (bio)materials. Hydrogels from short peptides typically show thermo-reversible gel-to-sol transition, whereby fibrils disassemble upon heating, and re-assemble upon cooling down to room temperature (rt). Despite ongoing intense research studies in this area, the majority focus on peptide-peptide interaction and neglect the structuring role of water in peptide supramolecular behavior. This study describes an unprotected tetrapeptide gelator that forms highly stable fibrils which, upon heating, re-organize into plates that persist upon cooling to rt. All-atom molecular dynamics (MD) simulations and experimental methods reveal water as a key player in the thermodynamics that accompany this irreversible morphological transition, and advance our understanding of supramolecular structures.

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多肽从纤维到板块重新组装的水上乐园。
短肽淀粉样蛋白的组装和分解在多个研究领域发挥着至关重要的作用,这些领域包括解决缺乏治疗方案的病理问题,以及开发创新型软(生物)材料。短肽水凝胶通常表现出凝胶到溶胶的热可逆转变,即纤维在加热时分解,冷却到室温(rt)后重新组装。尽管目前这一领域的研究十分活跃,但大多数研究都集中于肽与肽之间的相互作用,而忽视了水在肽超分子行为中的结构作用。本研究描述了一种未受保护的四肽凝胶剂,它能形成高度稳定的纤维,加热后重新组织成板状,冷却至恒温后仍能保持。全原子分子动力学(MD)模拟和实验方法揭示了水在伴随这种不可逆形态转变的热力学中的关键作用,并加深了我们对超分子结构的理解。
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来源期刊
Journal of materials chemistry. B
Journal of materials chemistry. B 化学科学, 工程与材料, 生命科学, 分析化学, 高分子组装与超分子结构, 高分子科学, 免疫生物学, 免疫学, 生化分析及生物传感, 组织工程学, 生物力学与组织工程学, 资源循环科学, 冶金与矿业, 生物医用高分子材料, 有机高分子材料, 金属材料的制备科学与跨学科应用基础, 金属材料, 样品前处理方法与技术, 有机分子功能材料化学, 有机化学
CiteScore
12.00
自引率
0.00%
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0
审稿时长
1 months
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