Evolving noisy oscillatory dynamics in genetic regulatory networks
| Contribuinte(s) |
Collet, Pierre Tomassini, Marco Ebner, Marc Gustafson, Steven Ekart, Aniko |
|---|---|
| Data(s) |
2006
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| Resumo |
We introduce a genetic programming (GP) approach for evolving genetic networks that demonstrate desired dynamics when simulated as a discrete stochastic process. Our representation of genetic networks is based on a biochemical reaction model including key elements such as transcription, translation and post-translational modifications. The stochastic, reaction-based GP system is similar but not identical with algorithmic chemistries. We evolved genetic networks with noisy oscillatory dynamics. The results show the practicality of evolving particular dynamics in gene regulatory networks when modelled with intrinsic noise. |
| Identificador | |
| Publicador |
Springer |
| Relação |
DOI:10.1007/11729976_26 Leier, Andre, Kuo, P. Dwight, Banzhaf, Wolfgang, & Burrage, Kevin (2006) Evolving noisy oscillatory dynamics in genetic regulatory networks. In Collet, Pierre, Tomassini, Marco, Ebner, Marc, Gustafson, Steven, & Ekart, Aniko (Eds.) Lecture Notes in Computer Science : Genetic Programming, Springer, Budapest, pp. 290-299. |
| Fonte |
Faculty of Science and Technology; Mathematical Sciences |
| Palavras-Chave | #Computer Science, Theory & Methods #Stochastic Simulation #Escherichia-coli #Expression #Evolution #Cells |
| Tipo |
Conference Paper |
