Evolutionary computation for the design of a stochastic switch for synthetic genetic circuits

Evolutionary computation for the design of a stochastic switch for synthetic genetic circuits

Biological systems are inherently stochastic, a fact which is often ignored when simulating genetic circuits. Synthetic biology aims to design genetic circuits de novo, and cannot therefore afford to ignore the effects of stochastic behavior. Since computational design tools will be essential for la...

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Veröffentlicht in:2010 Annual International Conference of the IEEE Engineering in Medicine and Biology 2010-01, Vol.2010, p.768-774
Hauptverfasser: Hallinan, J S, Misirli, G, Wipat, A
Format: Artikel
Sprache:eng
Schlagworte:
Bacillus subtilis - genetics
Bacterial Proteins - genetics
Biological system modeling
Biomimetics - methods
Computational modeling
Computer Simulation
Computers, Molecular
Evolution, Molecular
Gene Expression Regulation, Bacterial - genetics
Genetics
Integrated circuit modeling
Interference
Introns - genetics
Models, Genetic
Models, Statistical
Signal Processing, Computer-Assisted
Signal to noise ratio
Stochastic processes
Synthetic Biology - methods
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Zusammenfassung:Biological systems are inherently stochastic, a fact which is often ignored when simulating genetic circuits. Synthetic biology aims to design genetic circuits de novo, and cannot therefore afford to ignore the effects of stochastic behavior. Since computational design tools will be essential for large-scale synthetic biology, it is important to develop an understanding of the role of stochasticity in molecular biology, and incorporate this understanding into computational tools for genetic circuit design. We report upon an investigation into the combination of evolutionary algorithms and stochastic simulation for genetic circuit design, to design regulatory systems based on the Bacillus subtilis sin operon.
ISSN:1094-687X
1557-170X
1558-4615
DOI:10.1109/IEMBS.2010.5626353