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Morphogen gradient reconstitution reveals Hedgehog pathway design principles

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Science  05 Apr 2018:
eaao0645
DOI: 10.1126/science.aao0645

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Abstract

In developing tissues, cells estimate their spatial position by sensing graded concentrations of diffusible signaling proteins called morphogens. Morphogen-sensing pathways exhibit diverse molecular architectures, whose roles in controlling patterning dynamics and precision remain unclear. Here, combining cell-based in vitro gradient reconstitution, genetic re-wiring, and mathematical modeling, we systematically analyzed the unique architectural features of the Sonic Hedgehog pathway. The combination of double-negative regulatory logic and negative feedback through the PTCH receptor accelerates gradient formation and improves robustness to variation in the morphogen production rate compared to alternative designs. The ability to isolate morphogen patterning from concurrent developmental processes, and to compare the patterning behaviors of alternative, re-wired, pathway architectures offers a powerful way to understand and engineer multicellular patterning.

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