Dresden 2026 –
wissenschaftliches Programm
BP 15: Computational Biophysics III
Mittwoch, 11. März 2026, 09:30–12:45, BAR/SCHÖ
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09:30 |
BP 15.1 |
Local chain stiffening regulates non-equilibrium maturation and clustering in biomolecular condensates — •Subhadip Biswas and Davit A Potoyan
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09:45 |
BP 15.2 |
Uncovering the thermodynamic principles of enzymatic regulation in biomolecular condensates with reactive simulations — •Enrico Lavagna, Francesco Delfino, Georgii Koniukov, Matteo Paloni, Luca Ciandrini, and Alessandro Barducci
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10:00 |
BP 15.3 |
Multiscale Simulation of Phosphofructokinase-1 Assemblies: From Transient Interactions to Large-Scale Assembly Formation — Mehrnoosh Khodam Hazrati, Tom Miclot, and •Stepan Timr
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10:15 |
BP 15.4 |
Multiscale Approaches to Phase Behaviour and Mechanical Properties of Synthetic DNA Networks — •Aaron Gadzekpo, Xenia Schneider, and Lennart Hilbert
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10:30 |
BP 15.5 |
Self-Assembly of KAHRP Spirals in Malaria-Infected Red Blood Cells — Devika Magan, Michael Lanzer, and •Ulrich S. Schwarz
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10:45 |
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30 min. break
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11:15 |
BP 15.6 |
From Data to Discovery: Machine Learning Force Fields for Fast and Accurate Ligand-Protein Screening — •Sergio Suárez-Dou, Miguel Gallegos, Hamza Ibrahim, Joshua T. Berryman, Andrea Volkamer, and Alexandre Tkatchenko
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11:30 |
BP 15.7 |
Modelling Protein Dynamics with Machine Learned Coarse-Grained Models — •Klara Bonneau
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11:45 |
BP 15.8 |
Gradient-Estimating Gillespie Simulators for Parameter Inference in Stochastic Models — •Ludwig Burger, Annalena Kofler, Lukas Heinrich, and Ulrich Gerland
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12:00 |
BP 15.9 |
Deep-Pose-Tracker: a unified model for behavioural analysis
of Caenorhabditis elegans — •Debasish Saha, Shivam Chaudhary, Dhyey Vyas, Anindya Ghosh Roy, and Rati Sharma
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12:15 |
BP 15.10 |
Adaptive Determination of Cluster Number in Single-Cell RNA-seq — •Cornelius Miller, Felix Wehrenberg, Dominik Egger, and Sophia Rudorf
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12:30 |
BP 15.11 |
AI-Guided Transition Path Sampling of Lipid Flip-Flop and Membrane Nanoporation — •Matthias Post and Gerhard Hummer
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