NMR INVESTIGATION OF THE MULTIDRUG TRANSPORTER EMRE, AN INTEGRAL MEMBRANE-PROTEIN

EmrE is an Escherichia coli multidrug transport protein that confers r esistance to a wide range of toxicants by active transport across the bacterial cell membrane. The highly hydrophobic polytopic integral mem brane protein has been purified and studied in its full-length form by high-resolution NMR spectroscopy in a mixture of chloroform/methanol/ water (6:6:1, by vol.). Full activity is maintained after reconstituti on of the protein into proteoliposomes from this solvent mixture. A se ries of heteronuclear (H-1-N-15) two- and three-dimensional experiment s, as well as triple resonance experiments, were applied to the 110-re sidue protein and led to the assignment of the 1(H), N-15 and a large part of the C-13 backbone resonances as well as many of the sidechain resonances. A preliminary analysis of the secondary structure, based o n sequential NOE connectivities, deviation of chemical shifts from ran dom coil values and (3)J(NH-alpha) coupling constants supports a model where the protein forms four a-helices between residues 4-26 (TM1), 3 2-53 (TM2), 58-76 (TM3) and 85-106 (TM4). For the residues of helices TM2 and TM3 a significant line broadening occurs due to slow conformat ional processes.