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Literature DB >> 25126787

Probing the stochastic, motor-driven properties of the cytoplasm using force spectrum microscopy.

Ming Guo¹, Allen J Ehrlicher², Mikkel H Jensen³, Malte Renz⁴, Jeffrey R Moore⁵, Robert D Goldman⁶, Jennifer Lippincott-Schwartz⁴, Frederick C Mackintosh⁷, David A Weitz⁸.

Abstract

Molecular motors in cells typically produce highly directed motion; however, the aggregate, incoherent effect of all active processes also creates randomly fluctuating forces, which drive diffusive-like, nonthermal motion. Here, we introduce force-spectrum-microscopy (FSM) to directly quantify random forces within the cytoplasm of cells and thereby probe stochastic motor activity. This technique combines measurements of the random motion of probe particles with independent micromechanical measurements of the cytoplasm to quantify the spectrum of force fluctuations. Using FSM, we show that force fluctuations substantially enhance intracellular movement of small and large components. The fluctuations are three times larger in malignant cells than in their benign counterparts. We further demonstrate that vimentin acts globally to anchor organelles against randomly fluctuating forces in the cytoplasm, with no effect on their magnitude. Thus, FSM has broad applications for understanding the cytoplasm and its intracellular processes in relation to cell physiology in healthy and diseased states.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：
Proteins
Vimentin

Year: 2014 PMID： 25126787 PMCID： PMC4183065 DOI： 10.1016/j.cell.2014.06.051

Source DB: PubMed Journal: Cell ISSN： 0092-8674 Impact factor: 41.582

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Probing the stochastic, motor-driven properties of the cytoplasm using force spectrum microscopy.

1. Scaling the microrheology of living cells.

Review 2. The molecular motor toolbox for intracellular transport.

3. Colloid surface chemistry critically affects multiple particle tracking measurements of biomaterials.

4. Microrheology, stress fluctuations, and active behavior of living cells.

5. Hindered diffusion of inert tracer particles in the cytoplasm of mouse 3T3 cells.

6. Force and velocity measured for single kinesin molecules.

7. The stiffness of rabbit skeletal actomyosin cross-bridges determined with an optical tweezers transducer.

Review 8. Cancer cell cycles.

9. Actin-binding protein requirement for cortical stability and efficient locomotion.

10. Mechanism of blebbistatin inhibition of myosin II.

Review 1. Intermediate Filaments Play a Pivotal Role in Regulating Cell Architecture and Function.

2. Characterization of the mechanical properties of cancer cells in 3D matrices in response to collagen concentration and cytoskeletal inhibitors.

3. Two-point particle tracking microrheology of nematic complex fluids.

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5. Hydrodynamic collective effects of active protein machines in solution and lipid bilayers.

6. Dynamic cross-links tune the solid-fluid behavior of living cells.

7. A stir in the cytoplasm.

8. Intracellular and extracellular forces drive primary cilia movement.

9. Alpha-actinin binding kinetics modulate cellular dynamics and force generation.

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