Issue 14, 2021
From the journal:

Materials Chemistry Frontiers

In situ real-time monitoring of the mechanism of self-assembly of short peptide supramolecular polymers

Mari C. Mañas-Torres, ORCID logo a   Cristina Gila-Vilchez, ORCID logo b   Juan A. González-Vera, ORCID logo c   Francisco Conejero-Lara,d   Victor Blanco, ORCID logo a   Juan Manuel Cuerva, ORCID logo a   Modesto T. Lopez-Lopez, ORCID logo *be   Angel Orte ORCID logo *c  and  Luis Álvarez de Cienfuegos ORCID logo *ae  

* Corresponding authors

a Dpto de Química Orgánica, Facultad de Ciencias, Universidad de Granada UGR, 18071-Granada, Spain
E-mail: lac@ugr.es

b Dpto de Física Aplicada, Facultad de Ciencias, UGR, Spain
E-mail: modesto@ugr.es

c Dpto de FisicoQuímica, Facultad de Farmacia, UGR, Granada, Spain
E-mail: angelort@ugr.es

d Dpto de Química Física, Facultad de Ciencias, UGR, Spain

e Instituto de Investigación Biosanitaria ibs.GRANADA, Spain

Abstract

Making use of the combination of multiparametric Fluorescence Lifetime Imaging Microscopy (FLIM) and single-molecule Fluorescence Lifetime Correlation Spectroscopy (FLCS), we have been able to study for the early stages of the fluorenylmethyloxycarbonyl-diphenylalanine (Fmoc-FF) self-assembly process with single-molecule resolution, the kinetics of fiber formation, the packaging of the peptides within the fibers and the capacity of the peptides to reassemble after disruption (self-healing) in the presence of different metallic cations. Other techniques such as FTIR, TEM, DSC and DFT calculations support our findings. The impact that the mechanism of self-assembly has on the physical (rigidity and self-healing) properties of the resulting gels have also been evaluated by rheology. Calcium ions are able to promote the self-assembly of Fmoc-FF faster and more efficiently, forming more rigid hydrogels than do cesium ions. The reasons behind this effect may be explained by the different capacities that these two cations have to coordinate with the peptide, modulate its hydrophobicity and stabilize the water–solute interphase. These findings shed light on the impact that small changes have on the process of self-assembly and can help to understand the influence of the environmental conditions on the in vivo uncontrolled self-assembly of certain proteins.

Graphical abstract: In situ real-time monitoring of the mechanism of self-assembly of short peptide supramolecular polymers

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Article information

DOI
https://doi.org/10.1039/D1QM00477H
Article type
Research Article
Submitted
30 Mar 2021
Accepted
16 May 2021
First published
18 May 2021
This article is Open Access
Creative Commons BY-NC license

Mater. Chem. Front., 2021,5, 5452-5462

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In situ real-time monitoring of the mechanism of self-assembly of short peptide supramolecular polymers

M. C. Mañas-Torres, C. Gila-Vilchez, J. A. González-Vera, F. Conejero-Lara, V. Blanco, J. M. Cuerva, M. T. Lopez-Lopez, A. Orte and L. Álvarez de Cienfuegos, Mater. Chem. Front., 2021, 5, 5452 DOI: 10.1039/D1QM00477H

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