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A Voltage‐Responsive Synthetic Cl<sup>−</sup>‐Channel Regulated by pH

Shao‐Ping Zheng, Ji‐Jun Jiang, Arie van der Lee, Mihail Bãrboiu

2020Angewandte Chemie International Edition53 citationsDOIOpen Access PDF

Abstract

Abstract Transmembrane protein channels are an important inspiration for the design of artificial ion channels. Their dipolar structure helps overcome the high energy barrier to selectively translocate water and ions sharing one pathway, across the cell membrane. Herein, we report that the amino‐imidazole (Imu) amphiphiles self‐assemble via multiple H‐bonding to form stable artificial Cl − ‐channels within lipid bilayers. The alignment of water/Cl − wires influences the conduction of ions, envisioned to diffuse along the hydrophilic pathways; at acidic pH, Cl − /H + symport conducts along a partly protonated channel, while at basic pH, higher Cl − /OH − antiport translocate through a neutral channel configuration, which can be greatly activated by applying strong electric field. This voltage/pH regulated channel system represents an unexplored alternative for ion‐pumping along artificial ion‐channels, parallel to that of biology.

Topics & Concepts

ProtonationChemistryIonLight-gated ion channelIon channelAntiporterMembraneTransmembrane channelsIon transporterLipid bilayerTransmembrane proteinBiophysicsVoltage-gated ion channelBiochemistryOrganic chemistryReceptorBiologyPhotoreceptor and optogenetics researchMolecular Sensors and Ion DetectionIon channel regulation and function