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biblio

Visible to the public Phoenix: Genetic Systems Engineering

Submitted by el_wehby on Fri, 05/25/2018 - 5:03pm
biblio

Visible to the public Semi-supervised pattern synthesis in spatially distributed dynamical systems

Submitted by el_wehby on Fri, 05/25/2018 - 5:03pm
biblio

Visible to the public Modeling Genetic Circuit Behavior in Transiently Transfected Mammalian Cells

Submitted by el_wehby on Fri, 05/25/2018 - 5:03pm
biblio

Visible to the public Pattern synthesis in a 3D agent-based model of stem cell differentiation

Submitted by el_wehby on Fri, 05/25/2018 - 5:03pm
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Visible to the public Genetic Systems Engineering

Submitted by el_wehby on Fri, 05/25/2018 - 5:03pm
biblio

Visible to the public Quantification and Synthesis of Emergent Behaviors of Locally Interacting Entities

Submitted by el_wehby on Fri, 05/25/2018 - 5:02pm
biblio

Visible to the public Modeling Genetic Circuit Behavior in Transiently Transfected Mammalian Cells

Submitted by el_wehby on Fri, 05/25/2018 - 5:02pm
file

Visible to the public CPS: Frontier: Collaborative Research: bioCPS for Engineering Living Cells

Submitted by Calin Belta on Wed, 11/29/2017 - 5:21pm. Contributors:

Our overall aim in this project is to synthesize desired behaviors in populations of bacterial and mammalian cells. To this goal, we define the basis of a next-generation cyber-physical system (CPS) called biological CPS (bioCPS). The enabling technologies are synthetic biology and micron-scale mobile robotics. Synthetic genetic circuits for decision making and local communication among the cells are automatically synthesized using a Bio-Design Automation (BDA) workflow.