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Just add sugar for carbohydrate induced self-assembly of curcumin

Author

Listed:
  • Sandy Wong

    (University of New South Wales)

  • Jiacheng Zhao

    (University of New South Wales)

  • Cheng Cao

    (University of New South Wales)

  • Chin Ken Wong

    (University of New South Wales)

  • Rhiannon P. Kuchel

    (University of New South Wales)

  • Sergio Luca

    (University of New South Wales)

  • James M. Hook

    (University of New South Wales
    University of New South Wales)

  • Christopher J. Garvey

    (ANSTO)

  • Sean Smith

    (University of New South Wales
    Australian National University)

  • Junming Ho

    (University of New South Wales)

  • Martina H. Stenzel

    (University of New South Wales)

Abstract

In nature, self-assembly processes based on amphiphilic molecules play an integral part in the design of structures of higher order such as cells. Among them, amphiphilic glycoproteins or glycolipids take on a pivotal role due to their bioactivity. Here we show that sugars, in particular, fructose, are capable of directing the self-assembly of highly insoluble curcumin resulting in the formation of well-defined capsules based on non-covalent forces. Simply by mixing an aqueous solution of fructose and curcumin in an open vessel leads to the generation of capsules with sizes ranging between 100 and 150 nm independent of the initial concentrations used. Our results demonstrate that hydrogen bonding displayed by fructose can induce the self-assembly of hydrophobic molecules such as curcumin into well-ordered structures, and serving as a simple and virtually instantaneous way of making nanoparticles from curcumin in water with the potential for template polymerization and nanocarriers.

Suggested Citation

  • Sandy Wong & Jiacheng Zhao & Cheng Cao & Chin Ken Wong & Rhiannon P. Kuchel & Sergio Luca & James M. Hook & Christopher J. Garvey & Sean Smith & Junming Ho & Martina H. Stenzel, 2019. "Just add sugar for carbohydrate induced self-assembly of curcumin," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-08402-y
    DOI: 10.1038/s41467-019-08402-y
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    Cited by:

    1. Chengjun Kang & Kuiwei Yang & Zhaoqiang Zhang & Adam K. Usadi & David C. Calabro & Lisa Saunders Baugh & Yuxiang Wang & Jianwen Jiang & Xiaodong Zou & Zhehao Huang & Dan Zhao, 2022. "Growing single crystals of two-dimensional covalent organic frameworks enabled by intermediate tracing study," Nature Communications, Nature, vol. 13(1), pages 1-9, December.

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