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The EMBO Journal
(2000) 19, 2152–2160, doi:10.1093/emboj/19.10.2152
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| Structure of the bacteriorhodopsin mutant F219L N intermediate revealed by electron crystallography |
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Janet Vonck
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Max-Planck-Institute for Biophysics, Heinrich-Hoffmann-Strasse 7, D-60528 Frankfurt, Germany e-mail: vonck@mpibp-frankfurt.mpg.de
Received 16 February 2000; Revised 22 March 2000; Accepted 23 March 2000.
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| Abstract |
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Bacteriorhodopsin is a light-driven proton pump in halobacteria that forms crystalline patches in the cell membrane. Isomerization of the bound retinal initiates a photocycle resulting in the extrusion of a proton. An electron crystallographic analysis of the N intermediate from the mutant F219L gives a three-dimensional view of the large conformational change that occurs on the cytoplasmic side after deprotonation of the retinal Schiff base. Helix F, together with helix E, tilts away from the center of the molecule, causing a shift of  3 Å at the EF loop. The top of helix G moves slightly toward the ground state location of helix F. These movements open a water-accessible channel in the protein, enabling the transfer of a proton from an aspartate residue to the Schiff base. The movement of helix F toward neighbors in the crystal lattice is so large that it would not allow all molecules to change conformation simultaneously, limiting the occupancy of this state in the membrane to 33%. This explains photocooperative phenomena in the purple membrane. |
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| Keywords: bacteriorhodopsin, conformational change, electron crystallography, proton pump, trapped intermediates |
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