Ion channel reconstitution in lipid bilayers.

Abstract

Incorporation of ion channels in planar lipid bilayers allows detecting and measuring ion channel activity in a well-controlled system. This technique provides critical information about ion channel kinetics, ion selectivity, gating mechanism, open probability, unitary conductance, subconductance states, voltage dependence, and burst opening events, particularly at the single molecule level. Planar lipid bilayers provide a unique controllable environment that enables maintaining specific regulatory components, including lipids, ligands, inhibitors, particular ions, and proteins, as well as the temperature that can modulate activity of many ion channels. Thus, this system provides explicit details about ion channel gating mechanism and enables identifying its particular regulatory molecules or components. This chapter will describe the planar lipid bilayer method using the example of a transient receptor potential (TRP) ion channel family member. The planar lipid bilayer electrophysiological approach has proven to be useful in studying intrinsic properties of TRP channels. This method is particularly valuable for our understanding of intrinsic temperature sensitivity of thermoreceptors such as TRP channels and direct effects of TRP channels agonists, antagonists, co-factors, and other modifiers.