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17:30 |
BP 25.1 |
Molecular Motors Can Sharpen the Length Distribution of Treadmilling Filaments — •Christoph Erlenkämper, Denis Johann, and Karsten Kruse
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17:30 |
BP 25.2 |
A phase-field model for amoeboid motility — •Alexander Dreher, Igor Aronson, and Karsten Kruse
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17:30 |
BP 25.3 |
A mechanism of stress generation in contractile rings — •Anne Wald, Viktoria Wollrab, Daniel Riveline, and Karsten Kruse
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17:30 |
BP 25.4 |
Depolymerization of Microtubules by Diffusing Motor Proteins — •Emanuel Reithmann, Louis Reese, and Erwin Frey
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17:30 |
BP 25.5 |
Dynamics and length distribution of microtubules under force and confinement — Björn Zelinski, •Nina Müller, and Jan Kierfeld
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17:30 |
BP 25.6 |
Feedback mechanism for microtubule polymerization regulation — •Maria Zeitz and Jan Kierfeld
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17:30 |
BP 25.7 |
Actomyosin Detection at Fluorescence Interference Contrast Checkpoints for Automated Biocomputation Readout — •Mercy Lard, Lasse ten Siethoff, Malin Persson, Alf Månsson, and Heiner Linke
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17:30 |
BP 25.8 |
Single-molecule motility of kinesin-5 motors between cross-linked microtubules — •Alice Wiesbaum, Christina Thiede, Olga Zaitsava, Vladimir Fridman, Marcel Janson, Larisa Gheber, and Christoph Schmidt
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17:30 |
BP 25.9 |
Measurement of F-actin localization tubes and their orientation distribution in three dimensions — •Evelin Jaschinski, Inka Kirchenbüchler, Ronald Springer, and Rudolf Merkel
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17:30 |
BP 25.10 |
Investigation of desmin intermediate filament assembly by atomic force microscopy — •Mareike Dieding, Volker Walhorn, Andreas Brodehl, Hendrik Milting, and Dario Anselmetti
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17:30 |
BP 25.11 |
Keratin 8/18 Networks and their Interplay with Plectin — •Ines Martin, Soufi Nafeey, Tobias Paust, Michael Beil, Harald Herrmann, and Othmar Marti
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17:30 |
BP 25.12 |
Investigating Intermediate Filament (dis-)assembly Processes with Microfluidics — •Bernd Nöding, Viktor Schröder, Judith Breuer, Susanne Bauch, and Sarah Köster
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17:30 |
BP 25.13 |
Passive Microrheology: A model-based approach to determine mechanical properties of assembled networks — •Tobias Paust, Ines Martin, Michael Beil, and Othmar Marti
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17:30 |
BP 25.14 |
Conception and construction of a microfluidic chamber for the optical tweezers — •Samuel Vollmer, Tobias Paust, and Othmar Marti
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17:30 |
BP 25.15 |
Laser ablation on actomyosin network — •Arnab Saha, Guillaume Salbreux, Frank Jülicher, and Stephan Grill
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17:30 |
BP 25.16 |
Correlating the signaling cascade with movement in Dictyostelium discoideum — •Christoph Blum, Vladimir Zykov, Kaumudi Prabhakara, Marco Tarantola, and Eberhard Bodenschatz
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17:30 |
BP 25.17 |
Rheology of cytoskeletal in-vitro networks — •Meenakshi Prabhune, Knut Heidemann, Florian Rehfeldt, Max Wardetzky, and Christoph Schmidt
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17:30 |
BP 25.18 |
Biopolymer Networks: Simulations of Rigid Rods Connected by Wormlike Chains — •Knut M Heidemann, Meenakshi M Prabhune, Florian Rehfeldt, Christoph F Schmidt, and Max Wardetzky
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17:30 |
BP 25.19 |
Actin Dynamics in Myosin II-null Dictyostelium Discoideum — Hsin-Fang Hsu, •Christian Westendorf, Carsten Beta, and Eberhard Bodenschatz
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17:30 |
BP 25.20 |
Active Biopolymer Networks — •Adam Walker, Nikta Fakhri, Kerstin von Roden, and Christoph F. Schmidt
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17:30 |
BP 25.21 |
Calmodulin regulates motility, dimerisation and phospholipid-binding of the unique myosin motor in Leishmania, myosin-XXI — •Christopher Batters, Heike Ellrich, Constanze Helbig, Katy Anne Woodall, Christian Hundschell, and Claudia Veigel
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