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Berlin 2005 – scientific programme

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CPP: Chemische Physik und Polymerphysik

CPP 9: SYMPOSIUM: Polymer networks and beyond: From molecular structure to materials and biological functions POSTER

CPP 9.12: Poster

Saturday, March 5, 2005, 16:45–18:45, Poster TU D

ACTIVE vs PASSIVE MICRORHEOLOGY — •Daisuke Mizuno1, Fred Mackintosh2, and Christoph Schmidt11Dept. biophysics and physics of complex systems, Div. Physics and Astronomy, Fac. Science, Vrije universiteit, Amsterdam — 2Dept. theoretical physics, Div. Physics and Astronomy, Fac. Science, Vrije universiteit, Amsterdam

We have performed passive and active 2-particle microrheology (MR) in actin solutions by using the same micron-sized colloidal particles as a probes. In passive MR, viscoelasticity is measured from the correlated thermal fluctuations of the probe particles. In active MR, one probe particle is sinusoidally driven by an oscillating optical trap while the correlated motion of the other one is detected by laser interferometry.

In equilibrium, both methods give the same results. In non-equilibrium, however, such as in living cells, random, nonthermal stress fluctuations prevent the use of the fluctuation-dissipation theorem. Probe motions are influenced by e.g. the activity of motor proteins or directional polymerization/depolymerization of actin and microtubules. Active components also modify the viscoelastic response of the cytoplasm. The main aim of our research is to gain a better understanding of microscopic dynamics in such non-equilibrium systems by combining active and passive microrheology.

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