Force-clamp spectroscopy with a small dithering of AFM tip, and its application to explore the energy landscape of single avidin–biotin complex

We have recently developed a new method for directly measuring the spring constant of single molecules and molecular complexes on a real-time basis [L.A. Chtcheglova, G.T. Shubeita, S.K. Sekatskii, G. Dietler, Biophys. J. 86 (2004) 1177]. The technique combines standard force spectroscopy with a sma...

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Veröffentlicht in:	Ultramicroscopy 2007-10, Vol.107 (10), p.882-886
Hauptverfasser:	Favre, M., Chtcheglova, L.A., Lapshin, D.A., Sekatskii, S.K., Valle, F., Dietler, G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Avidin - chemistry Biotin - chemistry Force-clamp AFM Microscopy, Atomic Force - methods Single molecule force spectroscopy Spectrum Analysis
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container_title	Ultramicroscopy
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creator	Favre, M. Chtcheglova, L.A. Lapshin, D.A. Sekatskii, S.K. Valle, F. Dietler, G.
description	We have recently developed a new method for directly measuring the spring constant of single molecules and molecular complexes on a real-time basis [L.A. Chtcheglova, G.T. Shubeita, S.K. Sekatskii, G. Dietler, Biophys. J. 86 (2004) 1177]. The technique combines standard force spectroscopy with a small dithering of tip. Changes in the amplitude of the oscillations are measured as a function of the pulling-off force to yield the spring constant of the complex. In this report, we present the first results of combination of this approach with the force-clamp spectroscopy. The standard atomic-force microscope has been supplemented with an electronic unit, which is capable of realizing an arbitrary force function, and permits the force-loading regime to be interrupted at any time. Using this method, the time needed to rupture a single bond can be measured as a function of the force that is required to maintain the complex in a stretched condition. The energy landscape of the avidin–biotin complex is explored and discussed.
doi_str_mv	10.1016/j.ultramic.2007.04.010
format	Article
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subjects	Avidin - chemistry Biotin - chemistry Force-clamp AFM Microscopy, Atomic Force - methods Single molecule force spectroscopy Spectrum Analysis
title	Force-clamp spectroscopy with a small dithering of AFM tip, and its application to explore the energy landscape of single avidin–biotin complex
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