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Supramolecular amplification of amyloid self-assembly by iodination

Author

Listed:
  • Arianna Bertolani

    (Laboratory of Nanostructured Fluorinated Materials (NFMLab), Materials, and Chemical Engineering ‘Giulio Natta’, Politecnico di Milano)

  • Lisa Pirrie

    (Laboratory of Nanostructured Fluorinated Materials (NFMLab), Materials, and Chemical Engineering ‘Giulio Natta’, Politecnico di Milano
    VTT-Technical Research Centre of Finland)

  • Loic Stefan

    (Laboratory of Nanostructured Fluorinated Materials (NFMLab), Materials, and Chemical Engineering ‘Giulio Natta’, Politecnico di Milano)

  • Nikolay Houbenov

    (Aalto University)

  • Johannes S. Haataja

    (Aalto University)

  • Luca Catalano

    (Laboratory of Nanostructured Fluorinated Materials (NFMLab), Materials, and Chemical Engineering ‘Giulio Natta’, Politecnico di Milano)

  • Giancarlo Terraneo

    (Laboratory of Nanostructured Fluorinated Materials (NFMLab), Materials, and Chemical Engineering ‘Giulio Natta’, Politecnico di Milano)

  • Gabriele Giancane

    (Università del Salento)

  • Ludovico Valli

    (Università del Salento)

  • Roberto Milani

    (VTT-Technical Research Centre of Finland)

  • Olli Ikkala

    (Aalto University)

  • Giuseppe Resnati

    (Laboratory of Nanostructured Fluorinated Materials (NFMLab), Materials, and Chemical Engineering ‘Giulio Natta’, Politecnico di Milano)

  • Pierangelo Metrangolo

    (Laboratory of Nanostructured Fluorinated Materials (NFMLab), Materials, and Chemical Engineering ‘Giulio Natta’, Politecnico di Milano
    VTT-Technical Research Centre of Finland)

Abstract

Amyloid supramolecular assemblies have found widespread exploitation as ordered nanomaterials in a range of applications from materials science to biotechnology. New strategies are, however, required for understanding and promoting mature fibril formation from simple monomer motifs through easy and scalable processes. Noncovalent interactions are key to forming and holding the amyloid structure together. On the other hand, the halogen bond has never been used purposefully to achieve control over amyloid self-assembly. Here we show that single atom replacement of hydrogen with iodine, a halogen-bond donor, in the human calcitonin-derived amyloidogenic fragment DFNKF results in a super-gelator peptide, which forms a strong and shape-persistent hydrogel at 30-fold lower concentration than the wild-type pentapeptide. This is remarkable for such a modest perturbation in structure. Iodination of aromatic amino acids may thus develop as a general strategy for the design of new hydrogels from unprotected peptides and without using organic solvents.

Suggested Citation

  • Arianna Bertolani & Lisa Pirrie & Loic Stefan & Nikolay Houbenov & Johannes S. Haataja & Luca Catalano & Giancarlo Terraneo & Gabriele Giancane & Ludovico Valli & Roberto Milani & Olli Ikkala & Giusep, 2015. "Supramolecular amplification of amyloid self-assembly by iodination," Nature Communications, Nature, vol. 6(1), pages 1-9, November.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms8574
    DOI: 10.1038/ncomms8574
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