by Keyword: Fmoc

Perez-Madrigala, MM, Gilb, AM, Casanovas, J, Jimenez, AI, Macor, LP, Aleman, C, (2022). Self-assembly pathways in a triphenylalanine peptide capped with aromatic groups Colloids And Surfaces B-Biointerfaces 216, 112522

Peptide derivatives and, most specifically, their self-assembled supramolecular structures are being considered in the design of novel biofunctional materials. Although the self-assembly of triphenylalanine homopeptides has been found to be more versatile than that of homopeptides containing an even number of residues (i.e. diphe-nylalanine and tetraphenylalanine), only uncapped triphenylalanine (FFF) and a highly aromatic analog blocked at both the N-and C-termini with fluorenyl-containing groups (Fmoc-FFF-OFm), have been deeply studied before. In this work, we have examined the self-assembly of a triphenylalanine derivative bearing 9-fluorenylme-thyloxycarbonyl and benzyl ester end-capping groups at the N-and C-termini, respectively (Fmoc-FFF-OBzl). The antiparallel arrangement clearly dominates in beta-sheets formed by Fmoc-FFF-OBzl, whereas the parallel and antiparallel dispositions are almost isoenergetic in Fmoc-FFF-OFm beta-sheets and the parallel one is slightly favored for FFF. The effects of both the peptide concentration and the mediu m on the self-assembly process have been examined considering Fmoc-FFF-OBzl solutions in a wide variety of solvent:co-solvent mixtures. In addi-tion, Fmoc-FFF-OBzl supramolecular structures have been compared to those obtained for FFF and Fmoc-FFF-OFm under identical experimental conditions. The strength of pi-pi stacking interactions involving the end-capping groups plays a crucial role in the nucleation and growth of supramolecular structures, which de-termines the resulting morphology. Finally, the influence of a non-invasive external stimulus, ultrasounds, on the nucleation and growth of supramolecular structures has been examined. Overall, FFF-based peptides provide a wide range of supramolecular structures that can be of interest in the biotechnological field.

JTD Keywords: aromatic interactions, beta-sheet, hierarchical structures, phenylalanine homopeptides, supramolecular structures, Amino-acids, Aromatic interactions, Beta-sheet, Fmoc, Hierarchical struc tures, Hydrogels, Phenylalanine homopeptides, Solvent, Spectroscopy, Supramolecular structures, Triphenylalanine

Fuentes, E., Bohá, Fuentes-Caparrós, A. M., Schweins, R., Draper, E. R., Adams, D. J., Pujals, S., Albertazzi, L., (2020). PAINT-ing fluorenylmethoxycarbonyl (Fmoc)-diphenylalanine hydrogels Chemistry - A European Journal 26, (44), 9869-9873

Self-assembly of fluorenylmethoxycarbonyl-protected diphenylalanine (FmocFF) in water is widely known to produce hydrogels. Typically, confocal microscopy is used to visualize such hydrogels under wet conditions, that is, without freezing or drying. However, key aspects of hydrogels like fiber diameter, network morphology and mesh size are sub-diffraction limited features and cannot be visualized effectively using this approach. In this work, we show that it is possible to image FmocFF hydrogels by Points Accumulation for Imaging in Nanoscale Topography (PAINT) in native conditions and without direct gel labelling. We demonstrate that the fiber network can be visualized with improved resolution (≈50 nm) both in 2D and 3D. Quantitative information is extracted such as mesh size and fiber diameter. This method can complement the existing characterization tools for hydrogels and provide useful information supporting the design of new materials.

JTD Keywords: FmocFF, Hydrogels, Mesh size, PAINT, Super-resolution