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Active Matter: Cell Dynamics and Modeling
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Related lectures (30)
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Tissue Patterning: Engineering Complex Organ Patterns
Explores tissue patterning, focusing on complex organ patterns through cell interactions and morphogen gradients.
Cell Patterning and Signalling Pathways
Explores cell patterning, signalling pathways, and genetic mutations in biological development.
Active Turbulence in Biological Systems
Delves into active turbulence and topological defects in biological systems, emphasizing their impact on cell motility and colony growth.
Cell Signalling: Receptors and Pathways
Explores cell signalling mechanisms, including receptors, pathways, and signal transduction for gene regulation and cellular responses.
Broken Symmetries in Living Matter
Delves into broken symmetries in living matter, focusing on time reversal, spatiotemporal, and chiral symmetry breaking.
Novel Materials Discovery in Silico
Explores computational discovery of novel materials, focusing on quantum spin Hall insulators and topological phases in transition metal dichalcogenides.
Gene Regulatory Networks
Explores how gene regulatory networks encode changes in cell development and the importance of interactions between different regulatory networks.
G Protein-Coupled Receptors: Signalling Diversity
Explores G protein-coupled receptors' signalling diversity, covering structure, activation, bias effects, and internalisation.
G Protein-Coupled Receptors: Signalling Diversity and Complexity
Explores the diversity and complexity of G protein-coupled receptors, focusing on their signalling pathways, ligand effects, and cellular activity.
Cellular Communication: Signaling Pathways and Receptors
Delves into the importance of intercellular communication and the diverse signaling pathways involved in cellular responses.
