Design Principles of Gene Regulatory Networks Underlying Cancer Phenotypic Plasticity

Explore the fundamental design principles governing gene regulatory networks that drive phenotypic plasticity in cancer cells through this 16-minute conference talk from Mathematical Oncology. Delve into the complex molecular mechanisms that enable cancer cells to switch between different phenotypic states, examining how gene regulatory circuits are structured and function to facilitate this critical aspect of tumor progression and treatment resistance. Learn about the mathematical and computational approaches used to analyze these networks, understand the key regulatory motifs and feedback loops that control cellular plasticity, and discover how these insights contribute to our understanding of cancer biology and potential therapeutic interventions. Gain valuable knowledge about the intersection of systems biology, mathematical modeling, and oncology research as applied to one of cancer's most challenging characteristics - its ability to adapt and change phenotypic states.