Albrecht Ott scite author profile

The mechanical properties of cells influence their cellular and subcellular functions, including cell adhesion, migration, polarization, and differentiation, as well as organelle organization and trafficking inside the cytoplasm. Yet reported values of cell stiffness and viscosity vary substantially, which suggests differences in how the results of different methods are obtained or analyzed by different groups. To address this issue and illustrate the complementarity of certain approaches, here we present, analyze, and critically compare measurements obtained by means of some of the most widely used methods for cell mechanics: atomic force microscopy, magnetic twisting cytometry, particle-tracking microrheology, parallel-plate rheometry, cell monolayer rheology, and optical stretching. These measurements highlight how elastic and viscous moduli of MCF-7 breast cancer cells can vary 1,000-fold and 100-fold, respectively. We discuss the sources of these variations, including the level of applied mechanical stress, the rate of deformation, the geometry of the probe, the location probed in the cell, and the extracellular microenvironment.

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Measurement of the persistence length of polymerized actin using fluorescence microscopy

Ott¹,

Magnasco²,

Simon³

et al. 1993

Phys. Rev. E

323

299

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Single actin filaments were confined between bovine-serum-albumine-coated glass plates, with a separation of about 1 ym, and their flickering Brownian movement was observed by fluorescence microscopy. The rigidity of the filaments was measured by extracting the correlation function given by the mean dot product between unit tangent vectors of an isolated filament. The result is consistent with current rigidity values found in the literature.

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Trapping and Wiggling: Elastohydrodynamics of Driven Microfilaments

Wiggins

Riveline

Ott

et al. 1998

Biophysical Journal

200

258

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We present an analysis of the planar motion of single semiflexible filaments subject to viscous drag or point forcing. These are the relevant forces in dynamic experiments designed to measure biopolymer bending moduli. By analogy with the "Stokes problems" in hydrodynamics (motion of a viscous fluid induced by that of a wall bounding the fluid), we consider the motion of a polymer, one end of which is moved in an impulsive or oscillatory way. Analytical solutions for the time-dependent shapes of such moving polymers are obtained within an analysis applicable to small-amplitude deformations. In the case of oscillatory driving, particular attention is paid to a characteristic length determined by the frequency of oscillation, the polymer persistence length, and the viscous drag coefficient. Experiments on actin filaments manipulated with optical traps confirm the scaling law predicted by the analysis and provide a new technique for measuring the elastic bending modulus. Exploiting this model, we also present a reanalysis of several published experiments on microtubules.

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Entangled versus multiconnected network of wormlike micelles

Khatory¹,

Kern²,

Lequeux³

et al. 1993

Langmuir

244

239

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Anomalous diffusion in ‘‘living polymers’’: A genuine Levy flight?

et al. 1990

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Albrecht Ott

A comparison of methods to assess cell mechanical properties

Measurement of the persistence length of polymerized actin using fluorescence microscopy

Trapping and Wiggling: Elastohydrodynamics of Driven Microfilaments

Entangled versus multiconnected network of wormlike micelles

Anomalous diffusion in ‘‘living polymers’’: A genuine Levy flight?

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