Supramolecular nucleoside-based gel: molecular dynamics simulation and characterization of its nanoarchitecture and self-assembly mechanism

Angelerou, Maria G.F.; Frederix, Pim W.J.M.; Wallace, Matthew; Yang, Bin; Rodger, Alison; Adams, Dave J.; Marlow, Maria; Zelzer, Mischa

doi:10.1021/acs.langmuir.8b00646

All Outputs (4)

Hydrophobicity of surface-immobilised molecules influences architectures formed via interfacial self-assembly of nucleoside-based gelators (2018)
Journal Article
Angelerou, M. G. F., Yang, B., Arnold, T., Rawle, J., Marlow, M., & Zelzer, M. (2018). Hydrophobicity of surface-immobilised molecules influences architectures formed via interfacial self-assembly of nucleoside-based gelators. Soft Matter, 14(48), 9851-9855. https://doi.org/10.1039/c8sm01868e

Surface-mediated self-assembly has potential in biomaterial development but underlying rules governing surface-gelator interactions are poorly understood. Here, we correlate surface properties with structural characterization data of nucleoside-based... Read More about Hydrophobicity of surface-immobilised molecules influences architectures formed via interfacial self-assembly of nucleoside-based gelators.

Low Molecular Weight Nucleoside Gelators: A Platform for Protein Aggregation Inhibition (2018)
Journal Article
Johnson, L., Faidra Angelerou, M. G., Surikutchi, B. T., Allen, S., Zelzer, M., & Marlow, M. (2019). Low Molecular Weight Nucleoside Gelators: A Platform for Protein Aggregation Inhibition. Molecular Pharmaceutics, 16(1), 462-467. https://doi.org/10.1021/acs.molpharmaceut.8b01013

© Copyright 2018 American Chemical Society. Low molecular weight nucleoside gelators hold great promise in drug delivery and particularly for the delivery of biologics because of their excellent biocompatibility. However, the influence of these gelat... Read More about Low Molecular Weight Nucleoside Gelators: A Platform for Protein Aggregation Inhibition.

Surface-Mediated Supramolecular Self-Assembly of Protein, Peptide, and Nucleoside Derivatives: From Surface Design to the Underlying Mechanism and Tailored Functions (2018)
Journal Article
Yang, B., Adams, D. J., Marlow, M., & Zelzer, M. (2018). Surface-Mediated Supramolecular Self-Assembly of Protein, Peptide, and Nucleoside Derivatives: From Surface Design to the Underlying Mechanism and Tailored Functions. Langmuir, 34(50), 15109-15125. https://doi.org/10.1021/acs.langmuir.8b01165

Among the many parameters that have been explored to exercise control over self-assembly processes, the influence of surface properties on self-assembly has been recognized as important but has received considerably less attention than other factors.... Read More about Surface-Mediated Supramolecular Self-Assembly of Protein, Peptide, and Nucleoside Derivatives: From Surface Design to the Underlying Mechanism and Tailored Functions.

Supramolecular nucleoside-based gel: molecular dynamics simulation and characterization of its nanoarchitecture and self-assembly mechanism (2018)
Journal Article
Angelerou, M. G., Frederix, P. W., Wallace, M., Yang, B., Rodger, A., Adams, D. J., …Zelzer, M. (2018). Supramolecular nucleoside-based gel: molecular dynamics simulation and characterization of its nanoarchitecture and self-assembly mechanism. Langmuir, 34(23), https://doi.org/10.1021/acs.langmuir.8b00646

Among the diversity of existing supramolecular hydrogels, nucleic acid-based hydrogels are of particular interest for potential drug delivery and tissue engineering applications because of their inherent biocompatibility. Hydrogel performance is dire... Read More about Supramolecular nucleoside-based gel: molecular dynamics simulation and characterization of its nanoarchitecture and self-assembly mechanism.