The voltage-dependent activity of Escherichia coli porins in different planar bilayer reconstitutions.

Because of conflicting results from differing techniques, the degree of voltage sensitivity of Escherichia coli porins in planar bilayers is still a matter of debate. In order to provide the first comparative study, OmpF porin was purified in three ways; firstly as native outer membrane vesicles, secondly as salt-extracted porin trimers in sodium dodecyl sulphate and thirdly as solubilised trimers extracted with octyl-polyoxyethylene (Octyl-POE). These methods represent the major approaches to porin isolation and purification. All three were reconstituted into Schindler-type bilayers. Detergent-solubilised OmpF was also reconstituted into Montal-Mueller- and Mueller-Rudin-type bilayers. In all cases voltage-dependent closing of OmpF was observed. Octyl-POE-extracted PhoE porin was similarly investigated in all three types of planar bilayer. Two membrane-formation techniques appeared genuinely to alter the voltage sensitivity of the porins they contained. Firstly, porins in membranes formed by the Montal-Mueller technique sometimes showed an increase in voltage sensitivity during the first 30 min after bilayer formation. Secondly, membranes formed by the Mueller-Rudin technique on thick polyethylene septa showed both poor solvent drainage and a significantly reduced porin voltage sensitivity.