Colloidal quantum dots initiating current bursts in lipid bilayers

The combination of inorganic semiconductor nanocrystals, also called quantum dots (QDs), with biological materials has recently attracted considerable interest since the QDs can be used as superior fluorescent labels. Here, we report on CdSe QD initiated current bursts in lipid bilayer membranes on application of a bias voltage. The current bursts observed resemble those produced by the peptaibol class of antibiotics such as alamethicin and trichorzins. The current fluctuations are dependent on the bias voltage and on the concentration of the QD applied to the membrane. Our data suggest that QDs with intrinsic dipole moments similar to alamethicin can be controlled by an external electric field, which creates a torque resulting in the insertion into the lipid membrane.