ABOUT THE CALENDAR
Understanding and Programming Multicellular Patterning from the Bottom Up
Seminar: BioE Seminars: Seminars of interest | February 28 | 12-1 p.m. | 106 Stanley Hall
Pulin Li, California Institute of Technology
How genes, operating in individual cells, generate coordinated multicellular behavior is a fundamental question in biology. In every cell, a set of genes ('genetic circuits') interact with one another to control specific cellular functions, and combinations of these functional modules create population-level behavior, ranging from biological patterns to physiological rhythms. Applying a bottom-up approach, we quantitatively analyzed how tissue patterning dynamics and precision arise from the underlying genetic circuits. Morphogens, forming concentration gradients in space, set the blueprint for tissue patterning. By reconstituting morphogen gradients in vitro, re-wiring genetic circuits, and using quantitative time-lapse imaging and mathematical modeling, we revealed the design principles of a key morphogen pathway, Sonic Hedgehog. Its unique architectural features, including double-negative regulatory logic and an evolutionarily conserved negative feedback loop, together accelerate gradient formation and improve patterning robustness. The ability to isolate morphogen-mediated patterning from concurrent developmental processes and to compare the behavior of alternative circuit architectures offers a new way to uncover developmental design principles and engineer multicellular patterning.
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