CORDIS Project
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BIOMECANET seeks to understand the mechanics of cell division by re-engineering and modeling biochemical networks involved in the process. It aims to reveal how these networks function together to drive cellular activities during division.
Cellular and sub-cellular organisation at the micrometre length scale ultimately reflects the activity of molecular networks that harness chemical energy to perform precise mechanical work, create functional spatial gradients, and sustain timely temporal changes in molecular activities.
In eukaryotic cell division, the biochemical oscillations of the cell cycle drive dramatic morphological changes of the cytoskeleton necessary for bi-orientation of chromosomes and for their subsequent delivery i…
MAX-PLANCK-GESELLSCHAFT ZUR FORDERUNG DER WISSENSCHAFTEN EV
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THE CHANCELLOR MASTERS AND SCHOLARS OF THE UNIVERSITY OF CAMBRIDGE
United Kingdom, Cambridge
Type: University / higher education
Activity type: Higher or Secondary Education Establishments
SME: No
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