Issue 92, 2024

Aromatic foldamer-derived transmembrane transporters

Abstract

This review is the first to focus on transmembrane transporters derived from aromatic foldamers, with most studies reported over the past decade. These foldamers have made significant strides in mimicking the essential functions of natural ion channel proteins. With their aromatic backbones rigidified by intramolecular hydrogen bonds or differential repulsive forces, this innovative family of molecules stands out for its structural diversity and functional adaptability. They achieve efficient and selective ion and molecule transport across lipid bilayers via carefully designed helical structures and tunable large cavities. Recent developments in this field highlight the transformative potential of foldamers in therapeutic applications and biomaterial engineering. Key advances include innovative molecular engineering strategies that enable highly selective ion transport by fine-tuning structural and functional attributes. Specific modifications to macrocyclic or helical foldamer structures have allowed precise control over ion selectivity and transport efficiency, with notable selectivity for K+, Li+, H+ and water molecules. Although challenges remain, future directions may focus on more innovative molecular designs, optimizing synthetic methods, improving membrane transport properties, integrating responsive designs that adapt to environmental stimuli, and fostering interdisciplinary collaborations. By emphasizing the pivotal role of aromatic foldamers in modern chemistry, this review aims to inspire further development, offering new molecular toolboxes and strategies to address technological and biological challenges in chemistry, biology, medicine, and materials science.

Graphical abstract: Aromatic foldamer-derived transmembrane transporters

Article information

Article type
Feature Article
Submitted
27 Aug 2024
Accepted
17 Oct 2024
First published
21 Oct 2024

Chem. Commun., 2024,60, 13468-13491

Aromatic foldamer-derived transmembrane transporters

D. Zhang, W. Chang, J. Shen and H. Zeng, Chem. Commun., 2024, 60, 13468 DOI: 10.1039/D4CC04388J

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