Add to ORKGABSTRACT: We report the design of two collagen-mimetic peptide sequences, NSI and NSII, that self-assemble into structurally defined nanoscale sheets. The underlying structure of these nanosheets can be understood in terms of the layered packing of collagen triple helices in two dimensions. These nanosheet assemblies represent a novel morphology for collagen-based materials, which, on the basis of their defined structure, may be envisioned as potentially biocompatible platforms for controlled presentation of chemical functionality at the nanoscale. The molecularly programmed self-assembly of peptides NSI and NSII into nanosheets suggests that sequence-specific macromolecules offer significant promise as design elements for two-dimensional (...
Peptide assemblies have received significant attention because of their important role in biology an...
The design of bioinspired nanostructures and materials of defined size and shape is challenging as i...
Self-assembly at the nanoscale is becoming increasingly important for the fabrication of novel supr...
Sequence-specific peptides have been demonstrated to self-assemble into structurally defined nanosca...
Engineering free-standing 2D nanomaterials with compositional, spatial, and functional control acros...
We describe the co-assembly of two different building units: collagen-mimetic peptides and DNA origa...
In this work several self-assembling materials have been designed, synthesized, characterized and st...
Synthetic collagen mimetic peptides are used to probe the role of hydrophobic forces in mediating pr...
Peptides present complicated three-dimensional folds encoded in primary amino acid sequences of no m...
Self-assembling systems provide unique bottom up approaches for creating nano- to macro-sized materi...
This thesis will focus on predicting and characterizing the self-assembly of collagen mimetic peptid...
This tutorial review looks at the design rules that allow peptides to be exploited as building block...
Self-assembling peptides form a prominent class of supramolecular materials with in general good bio...
The rational design of peptides that fold to form discrete nanoscale objects, and/or self-assemble i...
Pochan, Darrin J.Kiick, Kristi L.Self-assembly is a spontaneous organization process of components i...
Peptide assemblies have received significant attention because of their important role in biology an...
The design of bioinspired nanostructures and materials of defined size and shape is challenging as i...
Self-assembly at the nanoscale is becoming increasingly important for the fabrication of novel supr...
Sequence-specific peptides have been demonstrated to self-assemble into structurally defined nanosca...
Engineering free-standing 2D nanomaterials with compositional, spatial, and functional control acros...
We describe the co-assembly of two different building units: collagen-mimetic peptides and DNA origa...
In this work several self-assembling materials have been designed, synthesized, characterized and st...
Synthetic collagen mimetic peptides are used to probe the role of hydrophobic forces in mediating pr...
Peptides present complicated three-dimensional folds encoded in primary amino acid sequences of no m...
Self-assembling systems provide unique bottom up approaches for creating nano- to macro-sized materi...
This thesis will focus on predicting and characterizing the self-assembly of collagen mimetic peptid...
This tutorial review looks at the design rules that allow peptides to be exploited as building block...
Self-assembling peptides form a prominent class of supramolecular materials with in general good bio...
The rational design of peptides that fold to form discrete nanoscale objects, and/or self-assemble i...
Pochan, Darrin J.Kiick, Kristi L.Self-assembly is a spontaneous organization process of components i...
Peptide assemblies have received significant attention because of their important role in biology an...
The design of bioinspired nanostructures and materials of defined size and shape is challenging as i...
Self-assembly at the nanoscale is becoming increasingly important for the fabrication of novel supr...