Regensburg 2019 – wissenschaftliches Programm
Bereiche | Tage | Auswahl | Suche | Aktualisierungen | Downloads | Hilfe
4364 Ergebnisse auf 437 Seiten: 1 … 8 9 10 11 12 … 437
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Mo, 12:45 | BP 1.11 | Quantum Mechanics of Proteins in Water: The role of Plasmon-like Solute-Solvent Interactions — •Martin Stöhr and Alexandre Tkatchenko |
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Mo, 09:30 | BP 2.1 | Soft Thermal Treatment Stabilizes Vacuum-deposited Phospholipid Layers for Sensor Applications — Sebastian Molina, Marcelo Cisternas, Maria J. Retamal, Nicolas Moraga, Hugo Zelada, •Jonas Fortmann, Tomas P. Corrales, Patrick Huber, Marco Soto-Arriaza, and Ulrich G. Volkmann |
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Mo, 09:45 | BP 2.2 | Prolonged Phospholipid Bilayer Stability due to Hydration on Porous Silicon: Pore Diameter and Porosity Optimization — Nicolas Moraga, Marcelo Cisternas, Diego Diaz, Rodrigo Catalan, Maria J. Retamal, Tomas P. Corrales, Mark Busch, Patrick Huber, Marco Soto-Arriaza, and •Ulrich G. Volkmann |
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Mo, 10:00 | BP 2.3 | Mechanisms of Interactions between Lipid Membranes in the Presence of Biological Cosolutes — •Amanuel Wolde-Kidan, Quoc Dat Pham, Alexander Schlaich, Emma Sparr, Roland Netz, and Emanuel Schneck |
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Mo, 10:15 | BP 2.4 | Glycolipids as zippers between phospholipid membranes — •Victoria Latza, Bruno Demé, and Emanuel Schneck |
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Mo, 10:30 | BP 2.5 | Hauptvortrag: Lessons learned from complex mimics of biological membranes — •Georg Pabst |
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Mo, 11:30 | BP 2.6 | The interaction of viral fusion peptides with model lipid membranes at high hydrostatic pressure — Göran Surmeier, Michael Paulus, Susanne Dogan, Yury Forov, Mirko Elbers, Simon Egger und •Julia Nase |
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Mo, 11:45 | BP 2.7 | Lipid membrane fusion in proteoliposomes and multilamellar stacks studied by X-ray scattering — •Kilian Frank, Karlo Komorowski, Veronica Chappa, Max Scheu, Marcus Müller, and Tim Salditt |
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Mo, 12:00 | BP 2.8 | Structural changes in biomimetic myelin membranes induced by Myelin Basic Protein — •Benjamin Krugmann, Andreas Stadler, Aurel Radulescu, Alexandros Koutsioumpas, and Stephan Förster |
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Mo, 12:15 | BP 2.9 | Influenza A matrix protein (M1) multimerization is the main driving force for membrane bending and tubulation. — Ismail Dahmani, Kai Ludwig, and •Salvatore Chiantia |