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Tuning bilayer twist using chiral counterions

Author

Listed:
  • R. Oda

    (Institut Européen de Chimie et Biologie, ENSCPB Av. Pey Berland
    Laboratoire de Dynamique des Fluides Complexes)

  • I. Huc

    (Institut Européen de Chimie et Biologie, ENSCPB Av. Pey Berland)

  • M. Schmutz

    (Institut de Génétique et de Biologie Moléculaire et Cellulaire, INSERM/CNRS/ULP)

  • S. J. Candau

    (Laboratoire de Dynamique des Fluides Complexes)

  • F. C. MacKintosh

    (Laboratoire de Dynamique des Fluides Complexes
    University of Michigan)

Abstract

From seashells to DNA, chirality is expressed at every level of biological structures. In self-assembled structures it may emerge cooperatively from chirality at the molecular scale. Amphiphilic molecules, for example, can form a variety of aggregates and mesophases that express the chirality of their constituent molecules at a supramolecular scale of micrometres (refs 1–3). Quantitative prediction of the large-scale chirality based on that at themolecular scale remains a largely unsolved problem. Furthermore, experimental control over the expression of chirality at the supramolecular level is difficult to achieve4,5,6,7: mixing of different enantiomers usually results in phase separation18. Here we present an experimental and theoretical description of a system in which chirality can be varied continuously and controllably (‘tuned’) in micrometre-scale structures. We observe the formation of twisted ribbons consisting of bilayers of gemini surfactants (two surfactant molecules covalently linked at their charged head groups). We find that the degree of twist and the pitch of the ribbons can be tuned by the introduction of opposite-handed chiral counterions in various proportions. This degree of control might be of practical value; for example, in the use of thehelical structures as templates for helical crystallization of macromolecules8,9.

Suggested Citation

  • R. Oda & I. Huc & M. Schmutz & S. J. Candau & F. C. MacKintosh, 1999. "Tuning bilayer twist using chiral counterions," Nature, Nature, vol. 399(6736), pages 566-569, June.
    • Handle: RePEc:nat:nature:v:399:y:1999:i:6736:d:10.1038_21154
    DOI: 10.1038/21154
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    Cited by:

    1. Qingqiao Xie & Yuandi Zhuang & Gaojun Ye & Tiankuo Wang & Yi Cao & Lingxiang Jiang, 2021. "Astral hydrogels mimic tissue mechanics by aster-aster interpenetration," Nature Communications, Nature, vol. 12(1), pages 1-9, December.

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