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MOVIE 1: Animation of the operation of the
F1-ATPase.
(Energy-minimized interpolation by Dmitry Cherepanov (2001) of the
1994-crystal structure from John Walker's lab in Cambridge) |
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MOVIE 2: Animation of the proton-driven FOF1-ATP
synthase. (after O. Fritsche & W. Junge (1999) by iAS, courtesy
of http://www.iwf.de
(2005)) |
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MOVIE 3: Original video of fluorescent
F-actin
attached to the c-ring of FO which rotates as driven by ATP-hydrolysis
in F1. The torque profile of the enzyme was calculated from the
curvature of the filament (O. Pänke et al. (2001) Biophysical
J.
81, 1220-33.) |
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MOVIE 4: Animation of the proton-translocating
(electro-)motor FO of the ATP synthase (concept: WJ et al. (1997) TIBS
22, 420-23, animation M. Sauer (2001)) |
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MOVIE 5: Stepped rotation of the c-ring in FOF1 recorded with small probe on FO. |
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MOVIE 6: Continuous rotation of the gamma subunit of immobilized F1 driven by
rotating external magnetic field acting on hyperparamagnetic bead. |
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Animation: From Light to ATP Proton
Translocating, Rotary F-ATPase in Chloroplasts
(1999, O. Fritsche & W. Junge) |
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Animation: Proton Translocating, Rotary F-ATPase
(2005 by iAS, courtesy of IWF.de)
english |
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Structural Model |
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Model Schematic |
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3 Techniques to Detect Rotation |
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Evolution |
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Actin-to-FOF1 linkage |
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Detaching filaments from immobilized FOF1 by
laminar flow (movie) |
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