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10.30 - 11.10
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Topics:
| Schubert : University of Magdeburg |
1. Cell biology.
| Lelievre: Basic Medical Sciences Dept., West Lafayette |
1. Cellular interactions in differentiation and cancer.
| Capasso : University of Milan |
1. Stochastic processes.
| Lachowicz : Institute of Applied Mathematics, University of Warsaw |
1. From microscopic to macroscopic models.
|
Deutsch
: Max Planck Institute for the Physics of Complex Systems, Dresden Drasdo : Max Planck Institute for Math. in the Science, Leipzig Morale : Dept. Math., University of Torino |
1. Cellular Automata.
2. Many particle systems and macroscopic models.
| Chotard-Ghodsnia, Drochon: Laboratoire
de Biomecanique et Genie Biomedical, Universite de Technologie de Compiegne, France Duperray: Laboratoire de Migration Cellulaire et Infiltration Tumorale, Institut Albert Bonniot, Faculte de Medecine, France Leyrat, Verdier : Laboratoire de Rheologie, Grenoble |
1. Adhesion.
| Owen : Department of Mathematical Sciences, Loughborough University |
1. Cancer, the immune response, and novel gene therapies.
| Tuszynski : Physics Department, University of Alberta, Canada |
1. From ATP to piconewtons:
Energy production and force generation in eukaryotic cells.
2. Kinetics of protein filament assembly and disassembly
in dividing cells.
| Kimmel : Department of Statistics, Rice University, USA |
1. Cellular interaction based on gene expression and proteome data.
1. From ATP to piconewtons:
Energy production and force generation in eukaryotic cells.
2. Kinetics of protein filament assembly and disassembly
in dividing cells.
| Tirozzi : Department of Physics, University of Rome "La Sapienza", Italy |
1. Microarrays and Kohonen Algorithm.