Difference between revisions of "Networked Feedback Systems in Biology"
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== Publications == | == Publications == | ||
* E. Franco, P. O. Forsberg and R. M. Murray. "Design, modeling and synthesis of an in vitro transcription rate regulatory circuit" Submitted to American Control Conference 2008. | |||
* | * M. J. Dunlop, E. Franco, R. M. Murray. "A Multi-Model Approach to Identification of Biosynthetic Pathways." In Proceedings of the 26th American Control Conference 2007. | ||
* J. Ugander, M. J. Dunlop, R. M. Murray. "Analysis of a Digital Clock for Molecular Computing." In Proceedings of the 26th American Control Conference 2007. | |||
Revision as of 18:45, 28 January 2008
This is a joint project with John Doyle, funded by the ARO Institute for Collaborative Biotechnology. This page primarily describes the work done in Richard Murray's group.
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Current participants:
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Previous participants:
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Objectives
We are developing a theoretical foundation for a network science relevant to the understanding and design of complex "systems of systems" typified by biological networks. We are particularly focusing on the organizational principles underlying their ``robust yet fragile aspects, scalability, and evolvability, and demonstrating progress with case studies of varying detail using familiar and concrete examples from biological networks and network-centric technologies. Biological examples will focus on intracellular regulatory networks and intercellular communication.
Publications
- E. Franco, P. O. Forsberg and R. M. Murray. "Design, modeling and synthesis of an in vitro transcription rate regulatory circuit" Submitted to American Control Conference 2008.
- M. J. Dunlop, E. Franco, R. M. Murray. "A Multi-Model Approach to Identification of Biosynthetic Pathways." In Proceedings of the 26th American Control Conference 2007.
- J. Ugander, M. J. Dunlop, R. M. Murray. "Analysis of a Digital Clock for Molecular Computing." In Proceedings of the 26th American Control Conference 2007.
