A novel spacer consisting of a hexapeptide molecule with a high tendency to form a 310-helical structure, which terminates with a sulfydryl group for anchoring to a metal, was tailored for use as a tethered hydrophilic spacer to be interposed between a metal support and a lipid bilayer. The thiol peptide has two triethylenoxy side chains that impart it a satisfactory hydrophilicity and are intended to keep the anchored thiol peptide chains sufficiently apart so as to accommodate water molecules and inorganic ions and to create a suitable environment for the incorporation of integral proteins. This thiol peptide was anchored to a hanging mercury drop electrode. The formation of a phospholipid bilayer on top of the self-assembled thiol peptide was carried out by a novel procedure which exploits the spontaneous tendency of a lipid film to form a bilayer when interposed between two hydrophilic phases. The resulting mercury-supported thiol peptide/lipid bilayer system was characterized by ac voltammetry with phase resolution, chronocoulometry, and impedance spectroscopy. The suitability of this tethered film as a biomembrane model was tested by incorporating ubiquinone-10 and valinomycin.
A Peptide-tethered Lipid Bilayer on Mercury as a Biomimetic System
PEGGION, CRISTINA;FORMAGGIO, FERNANDO;TONIOLO, CLAUDIO;
2001
Abstract
A novel spacer consisting of a hexapeptide molecule with a high tendency to form a 310-helical structure, which terminates with a sulfydryl group for anchoring to a metal, was tailored for use as a tethered hydrophilic spacer to be interposed between a metal support and a lipid bilayer. The thiol peptide has two triethylenoxy side chains that impart it a satisfactory hydrophilicity and are intended to keep the anchored thiol peptide chains sufficiently apart so as to accommodate water molecules and inorganic ions and to create a suitable environment for the incorporation of integral proteins. This thiol peptide was anchored to a hanging mercury drop electrode. The formation of a phospholipid bilayer on top of the self-assembled thiol peptide was carried out by a novel procedure which exploits the spontaneous tendency of a lipid film to form a bilayer when interposed between two hydrophilic phases. The resulting mercury-supported thiol peptide/lipid bilayer system was characterized by ac voltammetry with phase resolution, chronocoulometry, and impedance spectroscopy. The suitability of this tethered film as a biomembrane model was tested by incorporating ubiquinone-10 and valinomycin.Pubblicazioni consigliate
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.