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Automated Force Volume Image Processing for Biological Samples

Abstract : Atomic force microscopy (AFM) has now become a powerful technique for investigating on a molecular level, surface forces, nanomechanical properties of deformable particles, biomolecular interactions, kinetics, and dynamic processes. This paper specifically focuses on the analysis of AFM force curves collected on biological systems, in particular bacteria. The goal is to provide fully automated tools to achieve theoretical interpretation of force curves on the basis of adequate, available physical models. In this respect, we propose two algorithms, one for the processing of approach force curves and another for the quantitative analysis of retraction force curves. In the former, electrostatic interactions prior to contact between AFM probe and bacterium are accounted for and mechanical interactions operating after contact are described in terms of Hertz-Hooke formalism. Retraction force curves are analyzed on the basis of the Freely Jointed Chain model. For both algorithms, the quantitative reconstruction of force curves is based on the robust detection of critical points (jumps, changes of slope or changes of curvature) which mark the transitions between the various relevant interactions taking place between the AFM tip and the studied sample during approach and retraction. Once the key regions of separation distance and indentation are detected, the physical parameters describing the relevant interactions operating in these regions are extracted making use of regression procedure for fitting experiments to theory. The flexibility, accuracy and strength of the algorithms are illustrated with the processing of two force-volume images which collect a large set of approach and retraction curves measured on a single biological surface. For each force-volume image, several maps are generated, representing the spatial distribution of the searched physical parameters as estimated for each pixel of the force-volume image.
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https://hal.archives-ouvertes.fr/hal-00584565
Contributor : Charles Soussen <>
Submitted on : Friday, April 8, 2011 - 5:55:52 PM
Last modification on : Thursday, June 10, 2021 - 3:38:02 PM

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Pavel Polyakov, Charles Soussen, Junbo Duan, Jérôme Duval, David Brie, et al.. Automated Force Volume Image Processing for Biological Samples. PLoS ONE, Public Library of Science, 2011, 6 (4), pp.1-19. ⟨10.1371/journal.pone.0018887⟩. ⟨hal-00584565⟩

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