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Alternating-Site Mechanism of Kinesin-1 Characterized by Single-Molecule FRET Using Fluorescent ATP Analogues |
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| Authors: | Sander Verbrugge Bettina Lechner Günther Woehlke Erwin JG Peterman |
| Institution: | † Department of Physics and Astronomy, VU University, Amsterdam, The Netherlands ‡ Laser Center, VU University, Amsterdam, The Netherlands § Department of Physics E22, Technical University Munich, Garching, Germany ¶ Institute for Cell Biology, Ludwig-Maximilians University, Munich, Germany |
| Abstract: | Kinesin-1 motor proteins move along microtubules in repetitive steps of 8 nm at the expense of ATP. To determine nucleotide dwell times during these processive runs, we used a Förster resonance energy transfer method at the single-molecule level that detects nucleotide binding to kinesin motor heads. We show that the fluorescent ATP analog used produces processive motility with kinetic parameters altered <2.5-fold compared with normal ATP. Using our confocal fluorescence kinesin motility assay, we obtained fluorescence intensity time traces that we then analyzed using autocorrelation techniques, yielding a time resolution of ∼1 ms for the intensity fluctuations due to fluorescent nucleotide binding and release. To compare these experimental autocorrelation curves with kinetic models, we used Monte-Carlo simulations. We find that the experimental data can only be described satisfactorily on the basis of models assuming an alternating-site mechanism, thus supporting the view that kinesin's two motor domains hydrolyze ATP and step in a sequential way. |
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