Membrane Thickness Changes Ion-Selectivity of Channel-Proteins

Membrane Thickness Changes Ion-Selectivity of Channel-Proteins

The plasma membrane is a highly dynamic cell-barrier if the nature and distribution of its constituents are considered. Ion channels are embedded in these double lipid bilayers, which modulate their 3D-structures. The structure modulations by the lipid bilayer can assume such a degree that channel a...

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Veröffentlicht in:Cellular physiology and biochemistry 2004-01, Vol.14 (4-6), p.231-240
Hauptverfasser: Garavaglia, MariaLisa, Dopinto, Silvia, Ritter, Markus, Fürst, Johannes, Saino, Stefano, Guizzardi, Fabiana, Jakab, Martin, Bazzini, Claudia, Vezzoli, Valeria, Dossena, Silvia, Rodighiero, Simona, Sironi, Chiara, Bottà, Guido, Meyer, Giuliano, Henderson, Robert, Paulmichl, Markus
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Cell Membrane - chemistry
Cell Membrane - physiology
Cell Membrane - ultrastructure
Dogs
Humans
Ion Channels - genetics
Ion Channels - physiology
Ion Transport
Lipid Bilayers - chemistry
Membrane Potentials
Microscopy, Atomic Force
Original Paper
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Zusammenfassung:The plasma membrane is a highly dynamic cell-barrier if the nature and distribution of its constituents are considered. Ion channels are embedded in these double lipid bilayers, which modulate their 3D-structures. The structure modulations by the lipid bilayer can assume such a degree that channel activation depends on them, as was shown for the KcsA potassium channel. Here we show that the cation-over-anion selectivity of reconstituted ICln channels can be varied by the thickness of a bilayer build of phosphatidylcholines. The shorter the acyl-chains and therefore the thinner the bilayers of the membrane are, the more potassium selective the channels are. In contrast, the longer the acyl-chains and therefore the thicker the membranes are, the more chloride selective the channels become.
ISSN:1015-8987
1421-9778
DOI:10.1159/000080332