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BP: Fachverband Biologische Physik

BP 8: Poster Session Ia

Montag, 18. März 2024, 18:00–20:30, Poster C

Cytoskeleton, Membranes and Vesicles, Cell Mechanics. Additional posters on Cell Mechanics in Poster Session Ib.

18:00 BP 8.1 Microtubule dynamics in the presence of an actin network — •Saheli Dey, Tiago Mimoso, and Sarah Köster
18:00 BP 8.2 Imaging F-Actin arrangement via homo-FRET using 2D polarization fluorescence microscopyLukas Spantzel, Chen Sun, Lena Jesse, Yunhao Mei, Yutong Wang, Shangjun Cheng, Mohammad Soltaninezhad, Michael Börsch, Rainer Heintzmann, Ivan G. Scheblykin, Adrian T. Press, and •Daniela Täuber
18:00 BP 8.3 Influence of the cytoskeletal surrounding on microtubules in cells — •Anna Blob, Roman David Ventzke, Thomas Giacomo Nies, Axel Munk, Laura Schaedel, and Sarah Köster
18:00 BP 8.4 Keratin and actin networks in epithelial cells under uniaxial strain — •Ruben Haag, Ruth Meyer, Peter Luley, Nicole Schwarz, and Sarah Köster
18:00 BP 8.5 Active microrheology on in vitro cytoskeletal networks — •Shanay Zafari, Pratima Sawant, and Sarah Köster
18:00 BP 8.6 Response of confined vimentin intermediate filament networks to applied strain — •Pratima Sawant, Shanay Zafari, and Sarah Köster
18:00 BP 8.7 Unveiling microtubule fracture dynamics: A comprehensive examination of the influence of lattice defects on the breakage process of microtubules — •Amir Zablotsky and Karin John
18:00 BP 8.8 The structure and mechanics of the actin cortex in different adhesion states — •Christoph Anton, Lucina Kainka, Sandra Iden, and Franziska Lautenschläger
18:00 BP 8.9 Membrane Stiffness and Formation of Microtentacles — •Yannic Veit, Lucina Kainka, Christoph Anton, and Franziska Lautenschläger
18:00 BP 8.10 Quantitative description of cellular adhesion forces and corresponding focal adhesions — •Kathi Michèle Kaiser, Carsten Baltes, Ben Wieland, Gubesh Gunaratnam, and Franziska Lautenschläger
18:00 BP 8.11 Mechanical properties of microtubule in actin network — •Komal Bhattacharyya, Sarah Köster, and Stefan Klumpp
18:00 BP 8.12 Interactions between synaptic vesicles and cytoskeletal filaments — •Tiago Mimoso, Rajdeep Chowdhury, Saheli Dey, Christian Hoffmann, Dragomir Milovanovic, Silvio Rizzoli, and Sarah Köster
18:00 BP 8.13 Influence of perfluorocarbon on the structural changes of lipid monolayers and on protein adsorption — •Jaqueline Savelkouls, Christian Albers, Gordon Scholz, Eric Schneider, and Michael Paulus
18:00 BP 8.14 Investigating the Fusion Efficiency of Respiratory Virus-Like Particles with Model Cell Membranes — •Mahsa Mohammadian, Chetan S Poojari, Ralf Seemann, Jochen Hub, and Jean-Baptiste Fleury
18:00 BP 8.15 Structure and Electrostatics in Monolayers of Raft-Forming Lipid Mixtures Containing GM1 — •Miriam Grava, Valeria Rondelli, and Emanuel Schneck
18:00 BP 8.16 Cavitation in lipid systems: Insights from molecular dynamics — •Marin Šako and Matej Kanduč
18:00 BP 8.17 The Mechanics of Pancake-like Adhered Vesicles — •Gianna C. Wolfisberg, Hendrik T. Spanke, Jaime Agudo-Canalejo, Eric R. Dufresne, Robert W. Style, and Aleksander A. Rebane
18:00 BP 8.18 Flow Dynamics in the Capillary Network of Different Blood Cell Types — •khadija larhrissi, Christian Wagner, Felix Milan Maurer, Selina Wrublewsky, Yazdan Rashidi, Alexis Darras, and Matthias Laschke
18:00 BP 8.19 Exploring Cell Shapes and Dynamics Through Discrete Differential Geometry — •Mauricio Rojas-Vega, Andela Šarić, and Christopher Wojtan
18:00 BP 8.20 The Role of Perilipin 5 for the Contact Sites between Lipid Droplets and Bilayer: Protein Tether, or Lipid Bridge? — •Shima Asfia, Mahsa Mohammadian, Ralf Seemann, and Jean-Baptiste Fleury
18:00 BP 8.21 Modulating self-organizing protein patterns by controlling the number of membrane linkers and the membrane charge — •Katharina Esch, Mergime Hasani, and Katja Zieske
18:00 BP 8.22 Formation of supported artificial Membranes of Lipid Raft Models by Physical Vapor Deposition — •Nancy Gomez-Vierling, Daniel Saavedra, Marco Soto-Arriaza, Marcelo A. Cisternas, Nicolás Moraga, Tomás P. Corrales, and Ulrich G. Volkmann
18:00 BP 8.23 Superstructure in lipopolymer monolayers at the air/water interface — •Issam Assi, Heiko Ahrens, and Christiane A. Helm
18:00 BP 8.24 Nobody is perfect: inspecting the defects of lipid membrane stacks by STED microscopy and X-ray diffraction — •Sarah Becker, Jette Alfken, and Tim Salditt
18:00 BP 8.25 Studying extracellular vesicle-mediated cell communication in flow networks for drug delivery system development — •Jan Jedryszek, Fatemeh Mirzapour, and Karen Alim
18:00 BP 8.26 Properties of Long-Chain Lipid Enriched Regions in Biological Membranes: Insights from MD Simulations — •Annemarie Quas, Clara Rickhoff, and Andreas Heuer
18:00 BP 8.27 Fungal hydrophobins as building blocks for rigid, water-impermeable pure protein bilayers and vesiclesFriederike Nolle, Kirstin Kochems, Karin Jacobs, and •Hendrik Hähl
18:00 BP 8.28 Molecular Dynamics Simulations as a tool to investigate the impact of imidazole-based cholesterol in lipid bilayers — •Clara Rickhoff, Azadeh Alavizargar, and Andreas Heuer
18:00 BP 8.29 Elevating Understanding of Membranes: How Spectroscopic Techniques can draw from Super-Resolution Microscopy Principles — •Simone Ezendam, Jonatan Alvelid, Andrea Volpato, and Ilaria Testa
18:00 BP 8.30 The effect of aversive external conditions on the migration of small plasmodia of Physarum polycephalum — •Diana Lenski, Lucas Tröger, and Karen Alim
18:00 BP 8.31 Unravelling the collective behavior of protrusions for directed migration — •Lucas Tröger and Karen Alim
18:00 BP 8.32 Clutch Model for focal adhesions predicts perfect self-stablisation — •Anton Burnet and Benedikt Sabass
18:00 BP 8.33 Stochastic catch-bond model of cell-cell adhesion mechanics and turnover — •Antonella Di Concilio Moschen and Benedikt Sabass
18:00 BP 8.34 Studying cell-particle-interactions using blinking holographic optical tweezers — •David Gitschier, Wolfgang Gross, Manuel Eisentraut, Konrad Berghoff, and Holger Kress
18:00 BP 8.35 Measuring viscoelastic properties in active, living systems through passive observations — •Till M. Muenker, Gabriel Knotz, Matthias Krüger, and Timo Betz
18:00 BP 8.36 Analysis of traction stress of iPSC derived heart muscle cells — •Bastian Malte Winter, Fatemeh Abbasi, Karthika Annamalai, Karl Toischer, and Timo Betz
18:00 BP 8.37 Intracellular Mechanical Fingerprinting: Identifying the proteins controlling the intracellular active mechanics — •Noémie Veyret, Dorian Marx, Till Münker, and Timo Betz
18:00 BP 8.38 Microfluidic single cell study on protoplast fusion — •Ioannis Gkekas, Philipp J. Artmann, Dario Anselmetti, Thorsten Seidel, and Martina Viefhues
18:00 BP 8.39 Calcium-dependent flagellar adhessiveness of Chlamydomonas — •Marcel Schalling, Rodrigo Catalan, Marzieh Karimi, and Oliver Bäumchen
18:00 BP 8.40 Nuclear mechanics across scales: from global deformation to local measurements — •Bart Vos, Yamini Vadapalli, Till Muenker, Ivan Avilov, Peter Lenart, and Timo Betz
18:00 BP 8.41 Unravelling the action spectrum of light-switchable flagellar adhesion of Chlamydomonas — •Rodrigo Catalan, Antoine Girot, Alexandros Fragkopoulos, Olga Baidukova, Darius Rauch, Peter Hegemann, and Oliver Bäumchen
18:00 BP 8.42 Modelling the impact of myosin IIA/IIB isoforms on cell migration — •Nils Winkler, Oliver M. Drozdowski, Falko Ziebert, and Ulrich S. Schwarz
18:00 BP 8.43 Mechanical fingerprint of the intracellular spaceMuenker Till M., Vos Bart E., and •Betz Timo
18:00 BP 8.44 Cell movement on the fast lane: how patterns can drive cell migration — •Annika A. Vogler, Sebastian W. Krauss, Florian Rehfeldt, and Matthias Weiss
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