Litcius/Paper detail

Assembly of π-Stacking Helical Peptides into a Porous and Multivariable Proteomimetic Framework

Sherrie L. Heinz-Kunert, Ashma Pandya, Viet Thuc Dang, Phuong Nguyen Tran, Sabari Ghosh, Dan McElheny, Bernard D. Santarsiero, Zhong Ren, Andy I. Nguyen

2022Journal of the American Chemical Society51 citationsDOIOpen Access PDF

Abstract

The evolution of proteins from simpler, self-assembled peptides provides a powerful blueprint for the design of complex synthetic materials. Previously, peptide-metal frameworks using short sequences (≤3 residues) have shown great promise as proteomimetic materials that exhibit sophisticated capabilities. However, their development has been hindered due to few variable residues and restricted choice of side-chains that are compatible with metal ions. Herein, we developed a noncovalent strategy featuring π-stacking bipyridyl residues to assemble much longer peptides into crystalline frameworks that tolerate even previously incompatible acidic and basic functionalities and allow an unprecedented level of pore variations. Single-crystal X-ray structures are provided for all variants to guide and validate rational design. These materials exhibit hallmark proteomimetic behaviors such as guest-selective induced fit and assembly of multimetallic units. Significantly, we demonstrate facile optimization of the framework design to substantially increase affinity toward a complex organic molecule.

Topics & Concepts

ChemistryStackingMultivariable calculusPorosityCombinatorial chemistryCrystallographyNanotechnologyOrganic chemistryEngineeringMaterials scienceControl engineeringSupramolecular Self-Assembly in MaterialsChemical Synthesis and AnalysisMetal-Organic Frameworks: Synthesis and Applications