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Braiding, branching and chiral amplification of nanofibres in supramolecular gels

Jones, Christopher D.; Simmons, Henry T.D.; Horner, Kate E.; Liu, Kaiqiang; Thompson, Richard L.; Steed, Jonathan W.

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Authors

Christopher D. Jones

Henry T.D. Simmons

Kate E. Horner

Kaiqiang Liu



Abstract

Helical nanofibres play key roles in many biological processes. Entanglements between helices can aid gelation by producing thick, interconnected fibres, but the details of this process are poorly understood. Here, we describe the assembly of an achiral oligo(urea) peptidomimetic compound into supramolecular helices. Aggregation of adjacent helices leads to the formation of fibrils, which further intertwine to produce high-fidelity braids with periodic crossing patterns. A braid theory analysis suggests that braiding is governed by rigid topological constraints, and that branching occurs due to crossing defects in the developing braids. Mixed-chirality helices assemble into relatively complex, odd-stranded braids, but can also form helical bundles by undergoing inversions of chirality. The oligo(urea) assemblies are also highly sensitive to chiral amplification, proposed to occur through a majority-rules mechanism, whereby trace chiral materials can promote the formation of gels containing only homochiral helices.

Citation

Jones, C. D., Simmons, H. T., Horner, K. E., Liu, K., Thompson, R. L., & Steed, J. W. (2019). Braiding, branching and chiral amplification of nanofibres in supramolecular gels. Nature Chemistry, 11, 375-381. https://doi.org/10.1038/s41557-019-0222-0

Journal Article Type Article
Acceptance Date Jan 23, 2019
Online Publication Date Mar 4, 2019
Publication Date Mar 4, 2019
Deposit Date Mar 14, 2019
Publicly Available Date Mar 29, 2024
Journal Nature Chemistry
Print ISSN 1755-4330
Electronic ISSN 1755-4349
Publisher Nature Research
Peer Reviewed Peer Reviewed
Volume 11
Pages 375-381
DOI https://doi.org/10.1038/s41557-019-0222-0

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