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BP: Fachverband Biologische Physik
BP 21: Neurobiophysics and Sensory Transduction
BP 21.8: Vortrag
Mittwoch, 24. März 2010, 16:15–16:30, H43
Soft Brains, Signal Amplification through Noise, and Taking the Brain by its Horns — Allen Ehrlicher, Timo Betz, Daniel Koch, Thomas Fuhs, Melanie Knorr, Kristian Franze, Steve Pawlizak, and •Josef A. Käs — Division of Soft Matter Physics, Institute of Experimental Physics I, University of Leipzig
For the brain’s viscoelastic properties single cell measurements reveal the softness of neurons and Glial cells, which consequentially rules out the notion of Glial cells as structural support. In contrary the mechanosensitive neurons follow in their growth and development the even softer Glial cells by inverse durotaxis. The motion of growth cones, the leading motile structures of growing neurons, results from a competition of stochastic processes responsible for forward and backward movement. Noise tuning of the growth cone’s stochastic fluctuations increases neuronal sensitivity to chemotaxis. The forces underlying the spatial interplay of random actin polymerization driving the forward motion and molecular motor-based retrograde flow responsible for stochastic retraction are measured either by applying conservation laws (continuity equation and force balance) to the cytoskeletal dynamics of GFP-actin transfected growth cones or by directly detecting these forces with AFM. By a simple mechanical lever arm effect weak optical gradient forces acting on the spike-like filopodia, the exploring “horns” of growth cones, are sufficient to control the direction of growth cones’ stochastic forward motion.