J. Alcaraz, Correction of microrheological measurements of soft samples with atomic force microscopy for the hydrodynamic drag on the cantilever, Langmuir, vol.18, pp.716-721, 2002.

T. Ando, High-speed atomic force microscopy and its future prospects, Biophys Rev, vol.10, pp.285-292, 2018.

T. Ando, A high-speed atomic force microscope for studying biological macromolecules, Proc Natl Acad Sci, vol.98, pp.12468-12472, 2001.

T. Ando, T. Uchihashi, and T. Fukuma, High-speed atomic force microscopy for nano-visualization of dynamic biomolecular processes, Prog Surf Sci, vol.83, pp.337-437, 2008.

T. Ando, T. Uchihashi, and S. Scheuring, Filming biomolecular processes by high-speed atomic force microscopy, Chem Rev, vol.114, pp.3120-3188, 2014.

G. Bell, Models for the specific adhesion of cells to cells, Science, vol.200, pp.618-627, 1978.

F. Benmouna and D. Johannsmann, Hydrodynamic interaction of AFM cantilevers with solid walls: an investigation based on AFM noise analysis, The European Physical Journal E, vol.9, pp.435-441, 2002.

D. Boal and D. H. Boal, Mechanics of the cell, 2012.

C. Braunsmann, J. Seifert, J. Rheinlaender, and T. E. Schäffer, High-speed force mapping on living cells with a small cantilever atomic force microscope, Rev Sci Instrum, vol.85, p.73703, 2014.

M. S. Bull, R. Sullan, H. Li, and T. T. Perkins, Improved single molecule force spectroscopy using micromachined cantilevers, ACS Nano, vol.8, pp.4984-4995, 2014.

H. J. Butt and M. Jaschke, Calculation of thermal noise in atomic force microscopy, Nanotechnology, vol.6, pp.1-7, 1995.

I. Casuso, Characterization of the motion of membrane proteins using high-speed atomic force microscopy, Nat Nanotechnol, vol.7, pp.525-529, 2012.
URL : https://hal.archives-ouvertes.fr/inserm-01363192

N. Chiaruttini, Relaxation of loaded ESCRT-III Spiral Springs drives membrane deformation, Cell, vol.163, pp.866-879, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01238262

A. Colom, I. Casuso, F. Rico, and S. Scheuring, A hybrid high-speed atomic force-optical microscope for visualizing single membrane proteins on eukaryotic cells, Nat Commun, vol.4, p.2155, 2013.
URL : https://hal.archives-ouvertes.fr/inserm-01357292

P. Cossio, G. Hummer, and A. Szabo, Kinetic ductility and force-spike resistance of proteins from single-molecule force spectroscopy, Biophys J, vol.111, pp.832-840, 2016.

O. K. Dudko, G. Hummer, and A. Szabo, Intrinsic rates and activation free energies from single-molecule pulling experiments, Phys Rev Lett, vol.96, p.108101, 2006.

E. Durner, W. Ott, M. A. Nash, and H. E. Gaub, Post-translational Sortasemediated attachment of high-strength force spectroscopy handles, ACS Omega, vol.2, pp.3064-3069, 2017.

D. T. Edwards and T. T. Perkins, Optimizing force spectroscopy by modifying commercial cantilevers: improved stability, precision, and temporal resolution, J Struct Biol, vol.197, pp.13-25, 2017.

D. T. Edwards, Optimizing 1-?s-resolution single-molecule force spectroscopy on a commercial atomic force microscope, Nano Lett, vol.15, pp.7091-7098, 2015.

D. T. Edwards, J. K. Faulk, M. Leblanc, and T. T. Perkins, Force spectroscopy with 9-?s resolution and sub-pN stability by tailoring AFM cantilever geometry, Biophys J, vol.113, pp.2595-2600, 2017.

E. Evans and K. Ritchie, Dynamic strength of molecular adhesion bonds, Biophys J, vol.72, pp.1541-1555, 1997.

G. E. Fantner, Components for high speed atomic force microscopy, Ultramicroscopy, vol.106, pp.881-887, 2006.

J. K. Faulk, D. T. Edwards, M. S. Bull, and T. T. Perkins, Improved force spectroscopy using focused-ion-beam-modified cantilevers, Methods Enzymol, vol.582, pp.321-351, 2017.

E. L. Florin, V. T. Moy, and H. E. Gaub, Adhesion forces between individual ligand-receptor pairs, Science, vol.264, pp.415-417, 1994.

J. Fritz, A. G. Katopodis, F. Kolbinger, and D. Anselmetti, Force-mediated kinetics of single P-selectin/ligand complexes observed by atomic force microscopy, Proc Natl Acad Sci U S A, vol.95, pp.12283-12288, 1998.

S. Fukuda, High-speed atomic force microscope combined with single-molecule fluorescence microscope, Rev Sci Instrum, vol.84, p.73706, 2013.

C. Ganser and T. Uchihashi, Microtubule self-healing and defect creation investigated by in-line force measurements during high-speed atomic force microscopy imaging, Nanoscale, vol.11, pp.125-135, 2019.

T. Gutsmann, Force spectroscopy of collagen fibers to investigate their mechanical properties and structural organization, Biophys J, vol.86, pp.3186-3193, 2004.

M. J. Higgins, Noninvasive determination of optical lever sensitivity in atomic force microscopy, Rev Sci Instrum, vol.77, p.13701, 2006.

P. Hinterdorfer, W. Baumgartner, H. J. Gruber, K. Schilcher, and H. Schindler, Detection and localization of individual antibody-antigen recognition events by atomic force microscopy, Proc Natl Acad Sci U S A, vol.93, pp.3477-3481, 1996.

A. R. Hodges, K. M. Bussmann, and J. H. Hoh, Improved atomic force microscope cantilever performance by ion beam modification, Rev Sci Instrum, vol.72, pp.3880-3883, 2001.

J. H. Hoh, J. P. Cleveland, C. B. Prater, J. P. Revel, and P. K. Hansma, Quantized adhesion detected with the atomic force microscope, J Am Chem Soc, vol.114, pp.4917-4918, 1992.

A. Humphris, M. J. Miles, and J. K. Hobbs, A mechanical microscope: high-speed atomic force microscopy, Appl Phys Lett, vol.86, p.34106, 2005.

J. L. Hutter and J. Bechhoefer, Calibration of atomic-force microscope tips, Rev Sci Instrum, vol.64, pp.1868-1873, 1993.

S. Izrailev, S. Stepaniants, M. Balsera, Y. Oono, and K. Schulten, Molecular dynamics study of unbinding of the avidin-biotin complex, Biophys J, vol.72, pp.1568-1581, 1997.

H. Janovjak, J. Struckmeier, and D. J. Müller, Hydrodynamic effects in fast AFM single-molecule force measurements, Eur Biophys J, vol.34, pp.91-96, 2005.

N. Kodera, M. Sakashita, and T. Ando, Dynamic proportional-integraldifferential controller for high-speed atomic force microscopy, Rev Sci Instrum, vol.77, p.83704, 2006.

N. Kodera, D. Yamamoto, R. Ishikawa, and T. Ando, Video imaging of walking myosin V by high-speed atomic force microscopy, Nature, vol.468, pp.72-76, 2010.

M. Krieg, Atomic force microscopy-based mechanobiology, Nature Reviews Physics, vol.1, p.41, 2019.

A. W. Leissa, Vibration of plates. Scientific and Technical Information Division, National Aeronautics and Space Administration, 1969.

R. Merkel, P. Nassoy, A. Leung, K. Ritchie, and E. Evans, Energy landscapes of receptor-ligand bonds explored with dynamic force spectroscopy, Nature, vol.397, pp.50-53, 1999.

L. F. Milles, K. Schulten, H. E. Gaub, and R. C. Bernardi, Molecular mechanism of extreme mechanostability in a pathogen adhesin, Science, vol.359, pp.1527-1533, 2018.

P. M. Morse, Vibration and sound, 1983.

V. T. Moy, E. L. Florin, and H. E. Gaub, Intermolecular forces and energies between ligands and receptors, Science, vol.266, pp.257-259, 1994.

I. Munguira, Glasslike membrane protein diffusion in a crowded membrane, ACS Nano, vol.10, pp.2584-2590, 2016.

K. Neupane, Direct observation of transition paths during the folding of proteins and nucleic acids, Science, vol.352, pp.239-242, 2016.

A. P. Nievergelt, N. Banterle, S. H. Andany, P. Gönczy, and G. E. Fantner, High-speed photothermal off-resonance atomic force microscopy reveals assembly routes of centriolar scaffold protein SAS-6, Nat Nanotechnol, vol.13, pp.696-701, 2018.

F. Oesterhelt, unfolding pathways of individual Bacteriorhodopsins, Science, vol.288, pp.143-146, 2000.

W. Ott, M. A. Jobst, C. Schoeler, H. E. Gaub, and M. A. Nash, Single-molecule force spectroscopy on polyproteins and receptor-ligand complexes: the current toolbox, J Struct Biol, vol.197, pp.3-12, 2016.

M. Otten, From genes to protein mechanics on a chip, Nat Methods, vol.11, pp.1127-1130, 2014.

M. Owa, Inner lumen proteins stabilize doublet microtubules in cilia and flagella, Nat Commun, vol.10, p.1143, 2019.

M. Radmacher, R. W. Tillmann, M. Fritz, and H. E. Gaub, From molecules to cells: imaging soft samples with the atomic force microscope, Science, vol.257, pp.1900-1905, 1992.

F. Rico, L. Gonzalez, I. Casuso, M. Puig-vidal, and S. Scheuring, Highspeed force spectroscopy unfolds titin at the velocity of molecular dynamics simulations, Science, vol.342, pp.741-743, 2013.
URL : https://hal.archives-ouvertes.fr/inserm-01309044

F. Rico, A. Russek, L. González, H. Grubmüller, and S. Scheuring, Heterogeneous and rate-dependent streptavidin-biotin unbinding revealed by high-speed force spectroscopy and atomistic simulations, Proc Natl Acad Sci, vol.116, pp.6594-6601, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02106342

M. Rief, M. Gautel, F. Oesterhelt, J. M. Fernandez, and H. E. Gaub, Reversible unfolding of individual titin immunoglobulin domains by AFM, Science, vol.276, pp.1109-1112, 1997.

A. Rigato, A. Miyagi, S. Scheuring, and F. Rico, High-frequency microrheology reveals cytoskeleton dynamics in living cells, Nat Phys, vol.13, pp.771-775, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01764684

J. E. Sader, Frequency response of cantilever beams immersed in viscous fluids with applications to the atomic force microscope, J Appl Phys, vol.84, pp.64-76, 1998.

J. E. Sader, I. Larson, P. Mulvaney, and L. R. White, Method for the calibration of atomic force microscope cantilevers, Rev Sci Instrum, vol.66, pp.3789-3798, 1995.

J. E. Sader, J. Chon, and P. Mulvaney, Calibration of rectangular atomic force microscope cantilevers, Rev Sci Instrum, vol.70, pp.3967-3969, 1999.

J. E. Sader, Spring constant calibration of atomic force microscope cantilevers of arbitrary shape, Rev Sci Instrum, vol.83, p.103705, 2012.

J. E. Sader, A virtual instrument to standardise the calibration of atomic force microscope cantilevers, Rev Sci Instrum, vol.87, p.93711, 2016.

M. Schächtele, E. Hänel, and T. E. Schäffer, Resonance compensating chirp mode for mapping the rheology of live cells by high-speed atomic force microscopy, Appl Phys Lett, vol.113, p.93701, 2018.

T. E. Schaeffer, Atomic force microscope for small cantilevers, pp.48-52, 1997.

T. E. Schäffer, J. P. Cleveland, F. Ohnesorge, D. A. Walters, and P. K. Hansma, Studies of vibrating atomic force microscope cantilevers in liquid, J Appl Phys, vol.80, pp.3622-3627, 1996.

H. Schillers, Standardized nanomechanical atomic force microscopy procedure (SNAP) for measuring soft and biological samples, Sci Rep, vol.7, p.5117, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01575563

C. Schoeler, Ultrastable cellulosome-adhesion complex tightens under load, Nat Commun, vol.5, p.5635, 2014.

M. Shibata, H. Yamashita, T. Uchihashi, H. Kandori, and T. Ando, Highspeed atomic force microscopy shows dynamic molecular processes in photoactivated bacteriorhodopsin, Nat Nanotechnol, vol.5, pp.208-212, 2010.

M. Shibata, T. Uchihashi, T. Ando, and R. Yasuda, Long-tip high-speed atomic force microscopy for nanometer-scale imaging in live cells, Sci Rep, vol.5, p.8724, 2015.

M. Sotomayor and K. Schulten, Single-molecule experiments in vitro and in silico, Science, vol.316, pp.1144-1148, 2007.

F. Sumbul, A. Marchesi, H. Takahashi, S. Scheuring, and F. Rico, Highspeed force spectroscopy for single protein unfolding, Lyubchenko YL (ed) Nanoscale imaging, vol.1814, pp.243-264, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01838371

F. Sumbul, A. Marchesi, and F. Rico, History, rare, and multiple events of mechanical unfolding of repeat proteins, J Chem Phys, vol.148, p.123335, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01792492

R. Sunyer, X. Trepat, J. J. Fredberg, R. Farre, and D. Navajas, The temperature dependence of cell mechanics measured by atomic force microscopy, Phys Biol, vol.6, p.25009, 2009.

Y. Suzuki, High-speed atomic force microscopy combined with inverted optical microscopy for studying cellular events, Sci Rep, vol.3, p.2131, 2013.

H. Takahashi, F. Rico, C. Chipot, and S. Scheuring, ?-Helix unwinding as force buffer in spectrins, ACS Nano, vol.12, pp.2719-2727, 2018.

S. Timoshenko, New York Viani MB et al (1999) Fast imaging and fast force spectroscopy of single biopolymers with a new atomic force microscope designed for small cantilevers, Rev Sci Instrum, vol.70, pp.4300-4303, 1937.

M. B. Viani, Probing protein-protein interactions in real time, Nat Struct Biol, vol.7, p.644, 2000.

D. A. Walters, Short cantilevers for atomic force microscopy, Rev Sci Instrum, vol.67, pp.3583-3590, 1996.

D. A. Walters, Atomic force microscopy using small cantilevers, pp.43-47, 1997.

H. Yamashita, Single-molecule imaging on living bacterial cell surface by high-speed AFM, J Mol Biol, vol.422, pp.300-309, 2012.

J. Yin, Genetically encoded short peptide tag for versatile protein labeling by Sfp phosphopantetheinyl transferase, Proc Natl Acad Sci U S A, vol.102, pp.15815-15820, 2005.

H. Yu, M. Siewny, D. T. Edwards, A. W. Sanders, and T. T. Perkins, Hidden dynamics in the unfolding of individual bacteriorhodopsin proteins, Science, vol.355, pp.945-950, 2017.

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