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Artificial Chloride-Selective Channel: Shape and Function Mimic of the ClC Channel Selective Pore

Wenlong Huang, Xudong Wang, Yu‐Fei Ao, Qi‐Qiang Wang, De‐Xian Wang

2020Journal of the American Chemical Society102 citationsDOI

Abstract

An artificial channel molecule 1 that mimics the shape and function of the ClC channel selective pore was described. To facilitate the transport of chloride along a unimolecular pathway, anion−π interactions were introduced as the noncovalent driving force. The hourglass-like shape of 1 was constructed with 1,3-alternate tetraoxacalix[2]arene[2]triazine as the narrowest (central) unit. Two diglycolamine-linked imide arms were tethered as the extending part, and phenylalanine moieties were fixed as the terminal anchoring groups. The ion transport activity was examined by a combination of vesicle and planar bilayer conductance techniques (BLM). The fluorescence analysis on the vesicle indicated that 1 is an efficient chloride transporter with high activity (EC50 = 1.50 μM; 1/lipid = 1:89). The ion channel characteristics were confirmed by BLM measurements, showing an average conductance of 20.8 ± 1.0 pS in symmetric KCl solutions (cis/trans = 1.0 M/1.0 M). Anion/cation selectivity with a permeability ratio PCl–/PK+ = 1.90 in an asymmetric KCl solution (cis/trans = 1.0 M/0.25 M) and anion/anion selectivity with PCl–/PBr– = 22.83 in a KCl/KBr solution (cis/trans = 1.0 M KCl/1.0 M KBr) were demonstrated.

Topics & Concepts

ChemistrySelectivityConductanceVesicleChlorideChloride channelIonLipid bilayerBilayerMembraneCrystallographyStereochemistryOrganic chemistryCombinatoricsMathematicsCatalysisBiochemistryIon channel regulation and functionMolecular Sensors and Ion DetectionLuminescence and Fluorescent Materials