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Pulin Li is interested in quantitatively understanding how genetic circuits create multicellular behavior in both natural and synthetically engineered systems.
We are curious about how circuits of interacting genes in individual cells enable multicellular functions, such as self-organizing into structured tissues. To address this question, we analyze genetic circuits in natural systems, combining quantitative measurements and mathematical modeling. In parallel, we test the sufficiency of the circuits and understand their design principles by multi-scale reconstitution, from genes to circuits to multicellular behavior, using synthetic biology and bioengineering tools. Together, we aim to provide both a quantitative understanding of embryonic development and new ways to engineer tissues.
We are curious about how circuits of interacting genes in individual cells enable multicellular functions, such as self-organizing into structured tissues. To address this question, we analyze genetic circuits in natural systems, combining quantitative measurements and mathematical modeling. In parallel, we test the sufficiency of the circuits and understand their design principles by multi-scale reconstitution, from genes to circuits to multicellular behavior, using synthetic biology and bioengineering tools. Together, we aim to provide both a quantitative understanding of embryonic development and new ways to engineer tissues.
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Edward M. Levine,Pulin Li,Seth Blackshaw,Valerie A. Wallace,Clayton P. Santiago,Randy Ringuette,Alexandra W. Fuller, John A. Gaynes, Patrick J. Gordon, Xiaodong Li
crossref(2022)
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