Dresden 2026 –
wissenschaftliches Programm
BP 2: Computational Biophysics I
Montag, 9. März 2026, 09:30–12:45, BAR/0106
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09:30 |
BP 2.1 |
Topology driven spatial organization of DNA-polymers in geometric confinement — •Debarshi Mitra, Shreerang Pande, and Apratim Chatterji
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09:45 |
BP 2.2 |
An extended boundary integral method for viscoelastic cells — •Thomas Mayr and Stephan Gekle
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10:00 |
BP 2.3 |
Synchronization of both microtubule ends facilitates robust spindle length control — •Shane Fiorenza, Sheba Cheeran, Elena Doria, Iva Tolić, Patrick Meraldi, and Nenad Pavin
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10:15 |
BP 2.4 |
A coarse-grained model for investigating the ejection of dsDNA from a viral capsid — •Adrian John Pinto, Klara Strobl, Carmen San Martin, Mar Alcazar Hutardo, Paul van der Schoot, Pedro J. de Pablo, Horacio V. Guzman, and Peter Virnau
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10:30 |
BP 2.5 |
Multi-Scale Computational Framework for Modeling Metabolic Pathways — •Miljan Dašić, Ashwathi Poolamanna, Mehrnoosh Khodam Hazrati, and Štěpán Timr
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10:45 |
BP 2.6 |
Coexistence in competition for shared resources with fluctuating fitness — •Angelique Burdinski and Dirk Brockmann
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11:00 |
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15 min. break
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11:15 |
BP 2.7 |
Dielectric response of graphene and MoS2 nanopores in the detection of single amino acids — •Longlong Li and Maria Fyta
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11:30 |
BP 2.8 |
From Bioanalytics to Neuromorphic Computing: Graphite-Based Nanopores for Protein Sequencing and Iontronic Memristors — •Chandan K. Das and Maria Fyta
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11:45 |
BP 2.9 |
Protein Translocation in Two Dimensional Nanopores from Molecular Dynamics and Free Energy Calculations — •Peijia Wei, Mayukh Kansari, Santiago López Páramo, and Maria Fyta
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12:00 |
BP 2.10 |
Extending quantum-mechanical benchmark accuracy to biological ligand-pocket interactions — •Mirela Puleva, Leonardo Medrano Sandonas, Balázs D. Lorincz, Jorge Charry, David M. Rogers, Péter R. Nagy, and Alexandre Tkatchenko
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12:15 |
BP 2.11 |
Insights into Quantum Decoherence in Biological Light Harvesting from First-Principles Simulations — Thomas Trepl, •Ingo Schelter, Johannes M. Foerster, and Stephan Kümmel
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12:30 |
BP 2.12 |
Human breathing pattern dominates the effective diffusivity of droplets emitted while speaking — •Lars Natusch and Roland Netz
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