Issue 31, 2022

Manipulation of peptide-fatty acid bioconjugates on graphene: effects of fatty acid chain length and attachment point

Abstract

The non-destructive functionalisation of graphene in aqueous media is a critical process with the potential to enhance the versatility of the 2D nanosheet material as a technological enabler. This could also unlock strategies for a wider uptake of graphene in bio-related applications. Graphene functionalisation can be achieved using peptides that specifically recognise the carbon-based material, resulting in persistent non-covalent adsorption without damaging the nanosheet. Bio-conjugation of non-natural moieties with these peptides can incorporate multifunctionality, further extending the applicability of these interfaces. Here, bio-conjugates comprising a graphene-binding peptide with a fatty acid chain of varying length are investigated for their binding affinity and adsorbed structures at the aqueous graphene interface. Through an integration of quartz crystal microbalance and atomic force microscopy data with advanced sampling molecular simulations, variations in the binding of these bio-conjugates is determined. Conjugation at either terminus led to good interfacial contact, and for a given attachment point, the changes in the fatty acid length did not substantially disrupt the conformations of the adsorbed peptide domain. These findings provide a solid foundation for designing multi-functional bio-interfaces for sensing and healthcare.

Graphical abstract: Manipulation of peptide-fatty acid bioconjugates on graphene: effects of fatty acid chain length and attachment point

Supplementary files

Article information

Article type
Paper
Submitted
25 May 2022
Accepted
14 Jul 2022
First published
21 Jul 2022

J. Mater. Chem. B, 2022,10, 6018-6025

Author version available

Manipulation of peptide-fatty acid bioconjugates on graphene: effects of fatty acid chain length and attachment point

Y. Perdomo, R. Jin, A. D. Parab, M. R. Knecht and T. R. Walsh, J. Mater. Chem. B, 2022, 10, 6018 DOI: 10.1039/D2TB01104B

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