Litcius/Paper detail

Supramolecular Self-Assembly of Engineered Polyproline Helices

Dominic F. Brightwell, Giada Truccolo, Kushal Samanta, Helena J. Shepherd, Aniello Palma

2023ACS Macro Letters12 citationsDOIOpen Access PDF

Abstract

The ability to rationally design biomaterials to form desired supramolecular constructs presents an ever-growing research field, with many burgeoning works within recent years providing exciting results; however, there exists a broad expanse of promising avenues of research yet to be investigated. As such we have set out to make use of the polyproline helix as a rigid, tunable, and chiral ligand for the rational design and synthesis of supramolecular constructs. In this investigation, we show how an oligoproline tetramer can be specifically designed and functionalized, allowing predictable tuning of supramolecular interactions, to engineer the formation of supramolecular peptide frameworks with varying properties and, consequently, laying the groundwork for further studies utilizing the polyproline helix, with the ability to design desired supramolecular structures containing these peptide building blocks, having tunable structural features and functionalities.

Topics & Concepts

Polyproline helixSupramolecular chemistryTetramerRational designMaterials scienceHelix (gastropod)NanotechnologySupramolecular polymersDesign elements and principlesPeptideChemistryComputer scienceMoleculeOrganic chemistrySnailBiochemistrySoftware engineeringBiologyEnzymeEcologySupramolecular Self-Assembly in MaterialsSupramolecular Chemistry and ComplexesChemical Synthesis and Analysis