An In Silico Modeling Toolbox for Rapid Prototyping of Circuits in a Biomolecular “Breadboard” System
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| Title | An In Silico Modeling Toolbox for Rapid Prototyping of Circuits in a Biomolecular “Breadboard” System |
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| Authors | Zoltan A. Tuza, Vipul Singhal, Jongmin Kim and Richard M. Murray |
| Source | 2013 Conference on Decision and Control (CDC) |
| Abstract | In this paper, we develop an experimentally val- idated MATLAB software toolbox as an accompaniment to an in vitro cell-free biomolecular “breadboard” system. The toolbox gives insight into the dynamics of unmeasured states in the cell-free system, accounting especially for the resource usage. Parameter lumping and the reduced order modeling are used to maintain computational tractability and to avoid ill-conditioning. The toolbox allows for most applications to be implemented with standard set of commands for ease of use. Due to the breadboarding nature of the underlying cell-free sys- tem, the toolbox provides a general framework for experiment planning and predictive modeling for synthetic biomolecular circuits cell-free systems, accelerating our capacity to rationally design circuits from well characterized parts. |
| Type | Conference paper |
| URL | http://www.cds.caltech.edu/~murray/preprints/tskm13-cdc s.pdf |
| DOI | |
| Tag | tskm13-cdc |
| ID | 2013b |
| Funding | |
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