Purified SecYEG was reconstituted into liposomes and studied in near-native conditions using atomic force microscopy. These SecYEG proteoliposomes were active in translocation assays. Changes in the structure of SecYEG as a function of time were directly visualized. The dynamics observed were significant in magnitude (∼1-10 Å) and were attributed to the two large loops of SecY linking transmembrane helices 6-7 and 8-9. In addition, we identified a distribution between monomers and dimers of SecYEG as well as a smaller population of higher order oligomers. This work provides a new vista of the flexible and dynamic structure of SecYEG, an intricate and vital membrane protein.
Keywords: Atomic Force Microscopy; Membrane Biophysics; Membrane Proteins; Protein Conformation; Protein Dynamics; Protein Export; Secretion; Structural Biology.