Directional Potassium Transport through a Unimolecular Peptide Channel

Ge Su; Min Zhang; Wen Si; Zhan Ting Li; Jun Li Hou

doi:10.1002/anie.201608428

Directional Potassium Transport through a Unimolecular Peptide Channel

Ge Su, Min Zhang, Wen Si, Zhan Ting Li, Jun Li Hou

Fudan University

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

Three unimolecular peptide channels have been designed and prepared by using the β-helical conformation of gramicidin A (gA). The new peptides bear one to three NH₃⁺groups at the N-end and one to three CO₂⁻groups at the C-end. These zwitterionic peptides were inserted into lipid bilayers in an orientation-selective manner. Conductance experiments on planar lipid bilayers showed that this orientation bias could lead to observable directional K⁺transport under multi-channel conditions. This directional transport behavior can further cause the generation of a current across a planar bilayer without applying a voltage. More importantly, in vesicles with identical external and internal KCl concentrations, the channels can pump K⁺across the lipid bilayer and cause a membrane potential.

Original language	English
Pages (from-to)	14678-14682
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	55
Issue number	47
DOIs	https://doi.org/10.1002/anie.201608428
State	Published - 14 Nov 2016
Externally published	Yes

Keywords

conductance measurements
directional transport
ion channels
potassium
rectifying behavior

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10.1002/anie.201608428

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title = "Directional Potassium Transport through a Unimolecular Peptide Channel",

abstract = "Three unimolecular peptide channels have been designed and prepared by using the β-helical conformation of gramicidin A (gA). The new peptides bear one to three NH3+groups at the N-end and one to three CO2−groups at the C-end. These zwitterionic peptides were inserted into lipid bilayers in an orientation-selective manner. Conductance experiments on planar lipid bilayers showed that this orientation bias could lead to observable directional K+transport under multi-channel conditions. This directional transport behavior can further cause the generation of a current across a planar bilayer without applying a voltage. More importantly, in vesicles with identical external and internal KCl concentrations, the channels can pump K+across the lipid bilayer and cause a membrane potential.",

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author = "Ge Su and Min Zhang and Wen Si and Li, \{Zhan Ting\} and Hou, \{Jun Li\}",

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T1 - Directional Potassium Transport through a Unimolecular Peptide Channel

AU - Su, Ge

AU - Zhang, Min

AU - Si, Wen

AU - Li, Zhan Ting

AU - Hou, Jun Li

PY - 2016/11/14

Y1 - 2016/11/14

N2 - Three unimolecular peptide channels have been designed and prepared by using the β-helical conformation of gramicidin A (gA). The new peptides bear one to three NH3+groups at the N-end and one to three CO2−groups at the C-end. These zwitterionic peptides were inserted into lipid bilayers in an orientation-selective manner. Conductance experiments on planar lipid bilayers showed that this orientation bias could lead to observable directional K+transport under multi-channel conditions. This directional transport behavior can further cause the generation of a current across a planar bilayer without applying a voltage. More importantly, in vesicles with identical external and internal KCl concentrations, the channels can pump K+across the lipid bilayer and cause a membrane potential.

AB - Three unimolecular peptide channels have been designed and prepared by using the β-helical conformation of gramicidin A (gA). The new peptides bear one to three NH3+groups at the N-end and one to three CO2−groups at the C-end. These zwitterionic peptides were inserted into lipid bilayers in an orientation-selective manner. Conductance experiments on planar lipid bilayers showed that this orientation bias could lead to observable directional K+transport under multi-channel conditions. This directional transport behavior can further cause the generation of a current across a planar bilayer without applying a voltage. More importantly, in vesicles with identical external and internal KCl concentrations, the channels can pump K+across the lipid bilayer and cause a membrane potential.

KW - conductance measurements

KW - directional transport

KW - ion channels

KW - potassium

KW - rectifying behavior

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DO - 10.1002/anie.201608428

M3 - 文章

C2 - 27754610

AN - SCOPUS:84991672381

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JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

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Directional Potassium Transport through a Unimolecular Peptide Channel

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Keywords

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