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A Foldaxane-Based Supramolecular Muscle-Like Switch.

Philip Waelès1, Frédéric Coutrot1

  • 1Supramolecular Machines and Architectures Team, IBMM, Université de Montpellier, CNRS, ENSCM, Montpellier, France.

Chemistryopen
|July 4, 2024
PubMed
Summary
This summary is machine-generated.

Researchers developed a novel foldamer-containing switch mimicking muscle function. This supramolecular assembly can transition between contracted and stretched states upon chemical stimulus, offering new possibilities for molecular machines.

Keywords:
daisy chainfoldaxanemolecular musclesupramoleculartemplate

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Area of Science:

  • Supramolecular Chemistry
  • Materials Science
  • Chemical Engineering

Background:

  • Daisy chain molecular muscle architectures are self-assemblies of hermaphrodite monomers.
  • These structures feature a macrocycle linked to a molecular thread with interaction sites (molecular stations).
  • Controlled alteration of affinity between macrocycles and stations enables molecular contraction and extension, mimicking muscle operation.

Purpose of the Study:

  • To explore the underexplored field of combining helix and template-containing rods for foldamer supramolecular assemblies.
  • To report the first supramolecular muscle-like foldamer-containing switch.
  • To demonstrate stimulus-responsive conformational changes in foldamer-based systems.

Main Methods:

  • Utilizing foldamer units as surrogates for macrocycles in supramolecular assembly.
  • Designing a molecular switch incorporating foldamer units and molecular threads.
  • Applying chemical stimulus to induce conformational changes.

Main Results:

  • The developed foldamer-containing switch successfully mimics muscle-like contraction and extension.
  • The system can adopt a contracted co-conformational state after chemical stimulus.
  • A degenerate-like state was observed, characterized by slow exchange between contracted and stretched states.

Conclusions:

  • Foldamer units can effectively serve as macrocycle surrogates in supramolecular muscle architectures.
  • The novel foldamer-containing switch demonstrates controllable, stimulus-responsive conformational changes.
  • This work opens new avenues for designing advanced molecular machines and soft materials.