Meyer Raphael, Link Julian, Gunkel Lucas, Lahu Albin, Demirezen Hakan, Weil Tanja, Ng David Y W
Department of the Synthesis of Macromolecule, Max Planck Institute for Polymer Research, Ackermannweg 10, 55128, Mainz, Germany.
Department of Molecular Spectroscopy, Max Planck Institute for Polymer Research, Ackermannweg 10, 55128, Mainz, Germany.
Chembiochem. 2025 Sep 12;26(16):e202500414. doi: 10.1002/cbic.202500414. Epub 2025 Aug 14.
While the assembly of supramolecular peptide nanostructures with diverse functions and morphologies has been extensively studied, the controlled disassembly of these architectures remains less understood. To address this, two short amphiphilic peptides incorporating anthracene as a light-responsive unit and lysine as a pH-sensitive residue are designed. These peptides self-assemble into nanosheets or nanoribbons with distinct secondary structures, which are further tunable by pH through modulation of peptide charge. Upon irradiation at 365 nm, the anthracene moieties undergo a bimolecular [4 + 4] cycloaddition, disrupting the π-π stacking interactions by distorting the planarity of the aromatic units. This photoreaction leads to disassembly of the supramolecular architectures within 10 min. Unlike monomolecular reactions such as photocleavage, the kinetics of this bimolecular photodimerization are significantly influenced by the degree of preorganization within the assemblies. These findings underscore the critical interplay between supramolecular architecture and molecular photochemistry, enabling light-triggered, structure-dependent disassembly of diverse peptide nanostructures.
虽然具有多种功能和形态的超分子肽纳米结构的组装已得到广泛研究,但这些结构的可控拆解仍鲜为人知。为了解决这一问题,设计了两种短的两亲性肽,它们将蒽作为光响应单元,赖氨酸作为pH敏感残基。这些肽自组装成具有不同二级结构的纳米片或纳米带,通过调节肽电荷,可进一步通过pH进行调节。在365nm照射下,蒽部分发生双分子[4+4]环加成反应,通过扭曲芳香单元的平面性破坏π-π堆积相互作用。这种光反应导致超分子结构在10分钟内拆解。与光裂解等单分子反应不同,这种双分子光二聚反应的动力学受到组装体内预组织程度的显著影响。这些发现强调了超分子结构与分子光化学之间的关键相互作用,实现了光触发的、结构依赖的多种肽纳米结构的拆解。
