Title :
Probing lipid membranes and ion channels with high frequency spectroscopy
Author :
Olapinski, Michael ; Bruggemann, A. ; George, Michael ; Manus, Stephan ; Fertig, Niels ; Simmel, Friedrich C.
Author_Institution :
Sekt. Phys., Univ. of Munich, Munchen, Germany
Abstract :
A coplanar waveguide defined on a glass chip is integrated within a microfluidic cartridge to allow for high-frequency testing of lipid bilayer membranes. The membranes are carefully deposited on the circuit using a solvent exchange method or, alternatively, vesicle fusion. The quality of the lipid bilayer membranes is controlled by fluorescence microscopy and scanning probe techniques. The deposition of the bilayers results in a significant change in the high frequency transmission properties of the circuit. We also embed alamethicin, a model ion channel forming peptide, in the bilayers in order to quantify the influence of channel charging events on the overall impedance.
Keywords :
bioluminescence; biomembrane transport; electric impedance; lipid bilayers; optical microscopy; proteins; scanning probe microscopy; alamethicin; coplanar waveguide; fluorescence microscopy; glass chip; high frequency spectroscopy; high frequency transmission properties; high-frequency testing; impedance; ion channel charging; ion channel forming peptide; ion channel probing; lipid bilayer membrane probing; microfluidic cartridge; scanning probe method; solvent exchange method; vesicle fusion; Biomembranes; Circuit testing; Coplanar waveguides; Fluorescence; Frequency; Glass; Lipidomics; Microfluidics; Solvents; Spectroscopy;
Conference_Titel :
Nanotechnology, 2004. 4th IEEE Conference on
Print_ISBN :
0-7803-8536-5
DOI :
10.1109/NANO.2004.1392421
