Water solubility and structural stability are key merits for proteins defined by the primary
sequence and 3D-conformation. Their manipulation represents important aspects of the …

Peptides have been extensively utilized to construct nanomaterials that display targeted
structure through hierarchical assembly. The self-assembly of both rationally designed …

Proteins are nature's primary building blocks for the construction of sophisticated molecular
machines and dynamic materials, ranging from protein complexes such as photosystem II …

Proteins are molecular machines whose function depends on their ability to achieve
complex folds with precisely defined structural and dynamic properties. The rational design …

Chirality is one of the most important structural features in biological systems. Peptides, as a
class of small biomolecules, can self-assemble into various chiral supramolecular polymers …

The self‐assembly of different classes of peptide, including cyclic peptides, amyloid peptides
and surfactant‐like peptides into nanotube structures is reviewed. The modes of self …

Peptide self-assembly is an increasingly attractive tool for nanomaterials. Perfected in
biology peptide self-assembling systems have impacted on nearly any conceivable …

We describe a general computational approach to designing self-assembling helical
filaments from monomeric proteins and use this approach to design proteins that assemble …

Highlights•The structural space explored by natural proteins is limited.•This raises questions:
what protein folds are possible, and how do we access them?•Parametric protein-design …

Protein nanotubes (PNTs) as state‐of‐the‐art nanocarriers are promising for various
potential applications both in the food and pharmaceutical industries. Derived from edible …