Active Mechanics Reveal Molecular-Scale Force Kinetics in Living Oocytes - Institut Curie
Article Dans Une Revue Biophysical Journal Année : 2018

Active Mechanics Reveal Molecular-Scale Force Kinetics in Living Oocytes

Wylie Ahmed
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  • IdHAL : wylie-ahmed
Etienne Fodor
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Matthias Bussonnier
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Paolo Visco
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Frederic van Wijland
Timo Betz
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Résumé

Active diffusion of intracellular components is emerging as an important process in cell biology. This process is mediated by complex assemblies of molecular motors and cytoskeletal filaments that drive force generation in the cytoplasm and facilitate enhanced motion. The kinetics of molecular motors have been precisely characterized in vitro by single molecule approaches, but their in vivo behavior remains elusive. Here, we study the active diffusion of vesicles in mouse oocytes, where this process plays a key role in nuclear positioning during development, and combine an experimental and theoretical framework to extract molecular-scale force kinetics (force, power stroke, and velocity) of the in vivo active process. Assuming a single dominant process, we find that the nonequilibrium activity induces rapid kicks of duration τ ∼ 300 μs resulting in an average force of F ∼ 0.4 pN on vesicles in in vivo oocytes, remarkably similar to the kinetics of in vitro myosin-V. Our results reveal that measuring in vivo active fluctuations allows extraction of the molecular-scale activity in agreement with single-molecule studies and demonstrates a mesoscopic framework to access force kinetics.
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Dates et versions

hal-02107008 , version 1 (13-11-2024)

Identifiants

Citer

Wylie Ahmed, Etienne Fodor, Maria Almonacid, Matthias Bussonnier, Marie-Hélène Verlhac, et al.. Active Mechanics Reveal Molecular-Scale Force Kinetics in Living Oocytes. Biophysical Journal, 2018, 114 (7), pp.1667-1679. ⟨10.1016/j.bpj.2018.02.009⟩. ⟨hal-02107008⟩
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