The interaction of a synthetic mitochondrial signal peptide with lipid membranes is independent of transbilayer potential.

We have used fluorescence measurements and assays of vesicle disruption (contents leakage) to monitor the interaction between lipid vesicles and a synthetic peptide corresponding to the N-terminal 27 amino acids of rat mitochondrial pre-ornithine carbamyltransferase (pOCT). This peptide and two fluorescent derivatives bind reversibly to vesicles composed of neutral and anionic phospholipids with increasing affinity as the proportion of anionic lipids in the vesicles increases. The affinity of the peptide for lipid vesicles is unaffected by the presence of a transbilayer potential (inside negative) of at least -80 mV across the vesicle membranes. Our results support the proposal that the signal sequence of pOCT may promote an initial association of the precursor protein with mitochondrial membranes prior to binding to a specific receptor. However, we find no evidence that the pOCT signal sequence can subsequently undergo transfer into or across the lipid bilayer, even in the presence of a transmembrane potential of the magnitude previously found to support the import of precursor proteins into mitochondria.