Supramolecular metal-coordination polymers, nets, and frameworks from synthetic coiled-coil peptides
NA Tavenor, MJ Murnin, WS Horne - Journal of the American …, 2017 - ACS Publications
Metal coordination and peptide-directed self-assembly are two proven methods for creating
defined supramolecular architectures. Here, we report a new class of crystalline materials …
defined supramolecular architectures. Here, we report a new class of crystalline materials …
Understanding and controlling the metal-directed assembly of terpyridine-functionalized coiled-coil peptides
KA Scheib, NA Tavenor, MJ Lawless… - Chemical …, 2019 - pubs.rsc.org
Metal-binding peptides are versatile building blocks in supramolecular chemistry. We
recently reported a class of crystalline materials formed through a combination of coiled-coil …
recently reported a class of crystalline materials formed through a combination of coiled-coil …
Covalent metal− peptide framework compounds that extend in one and two dimensions
HY Lee, JW Kampf, KS Park… - Crystal Growth and …, 2008 - ACS Publications
Peptides are attractive ligands for the design of metal organic frameworks, with the potential
to confer chirality and biological activity on these materials. However, very few such …
to confer chirality and biological activity on these materials. However, very few such …
Peptide–metal frameworks with metal strings guided by dispersion interactions
Despite impressive advances in the construction of metal–organic frameworks (MOFs), the
formation of networks from peptidic ligands is difficult, though they are sought after for their …
formation of networks from peptidic ligands is difficult, though they are sought after for their …
Toward the Construction of 3D Dipeptide–Metal Frameworks
Single amino acids have been vastly used to generate metal–biomolecule frameworks.
Three-dimensional (3D) frameworks based on di-and tripeptide frameworks remain …
Three-dimensional (3D) frameworks based on di-and tripeptide frameworks remain …
Assembly of π-stacking helical peptides into a porous and multivariable proteomimetic framework
SL Heinz-Kunert, A Pandya, VT Dang… - Journal of the …, 2022 - ACS Publications
The evolution of proteins from simpler, self-assembled peptides provides a powerful
blueprint for the design of complex synthetic materials. Previously, peptide–metal …
blueprint for the design of complex synthetic materials. Previously, peptide–metal …
Two-dimensional coordination networks from cyclic dipeptides
Y Guo, A Nuermaimaiti, ND Kjeldsen… - Journal of the …, 2020 - ACS Publications
Peptide-based biomimetic nanostructures and metal–organic coordination networks on
surfaces are two promising classes of hybrid materials which have been explored recently …
surfaces are two promising classes of hybrid materials which have been explored recently …
Conformational Adaptation of β‐Peptide Foldamers for the Formation of Metal–Peptide Frameworks
S Jeong, L Zhang, J Kim, J Gong, J Choi… - Angewandte …, 2022 - Wiley Online Library
Metal‐coordinated frameworks derived from small peptidic ligands have received much
attention thanks to peptides' vast structural and functional diversity. Various peptides with …
attention thanks to peptides' vast structural and functional diversity. Various peptides with …
Metal‐Coordinated Supramolecular Polymers from the Minimalistic Hybrid Peptide Foldamers
Availing the peptide folded architectures to design metal‐coordinated frameworks and
cages is restricted due to the scarcity of readily accessible short and stable secondary …
cages is restricted due to the scarcity of readily accessible short and stable secondary …
De novo design of peptide scaffolds as novel preorganized ligands for metal-ion coordination
AJ Gamble, AFA Peacock - Protein Design: Methods and Applications, 2014 - Springer
This chapter describes how de novo designed peptides can be used as novel preorganized
ligands for metal ion coordination. The focus is on the design of peptides which are …
ligands for metal ion coordination. The focus is on the design of peptides which are …