Formation of self-assembled, air-stable lipid bilayer membranes on solid supports
- ,
- Bruce Bondurantb(Author),
- Tony Sprattb(Author),
- John C. Conboya, b(Author),
- David F. O'Brienb(Author),
- S. Scott Saavedrab(Author)
- aUniversity of Utah,
- bDepartment of Chemistry and Biochemistry
Research Output: Contribution to journal Article Peer-review
Abstract
A successful strategy for the self-assembly and stabilization of a substrate-supported, phospholipid bilayer is described. The bilayer is self-organized by fusion of fluid vesicles, composed of bissorbylphosphatidylcholine, on an oxide surface. The supported bilayer is then polymerized in situ to produce a cross-linked structure that is stable to surfactant solutions, organic solvents, and to transfer across the air/water interface, yet retains the resistance to nonspecific protein adsorption characteristic of a fluid phosphatidylcholine bilayer.