Surface structures of native bacteriorhodopsin depend on the molecular packing arrangement in the membrane

Bacteriorhodopsin is the one of the best-studied models of an ion pump. Five atomic models are now available, yet their comparison reveals differences of some loops connecting the seven transmembrane alpha-helices. In an attempt to resolve this enigma, topographs were recorded in aqueous solution with the atomic force microscope (AFM) to reveal the most native surface structure of bacteriorhodopsin molecules in the purple membrane. Individual peptide loops were observed with a lateral resolution of between 4.5 Angstrom and 5.8 Angstrom, and a vertical resolution of about 1 Angstrom. The AFM images demonstrate for the first time, that the shape, the position, and the flexibility of individual polypeptide loops depend on the packing arrangement of bacteriorhodopsin molecules in the lipid bilayer. (C) 1999 Academic Press.