Difference between revisions of "Modeling Stochasticity"
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| − | <center>[[ | + | <center>[[Term_paper_wiki| <span style="color:red">Home</span>]] | [[Origins and Characterization of Stochasticity| <span style="color:red">Origins and Characterization of Stochasticity</span>]] | [[Modeling Stochasticity| <span style="color:red">Modeling Stochasticity</span>]] | [[Manipulation of Stochasticity| <span style="color:red">Manipulation of Stochasticity</span>]] | [[Evolved Stochasticity? | <span style="color:red">Evolved Stochasticity?</span>]] | [[Concluding Remarks| <span style="color:red">Concluding Remarks </span> ]] | [[Citations|<span style="color:red">Citations</span>]]</center> |
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| − | |<center> The goal of modeling gene networks is to accurately predict the properties and functions of modules | + | |<center> |
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| + | Image obtained at http://ucsdnews.ucsd.edu/newsrel/science/10-07MolecularMotorSS-N.asp permission pending<br><br></center> | ||
| + | The goal of modeling gene networks is to accurately predict the properties and functions of utilized modules in a synthetic device and to make dry lab suggestions for optimal design strategies prior to implementation in vivo (Collins ''et. al''., 2003). The use of both deterministic and stochastic models have been employed to achieve this goal, however assumptions have to be made before a deterministic models can fit experimental data (Collins ''et. al''., 2005). Most have found that the use of stochastic models is necessary in order to generate equations that can model wet lab results. | ||
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<center><b> [[Origins and Characterization of Stochasticity | Previous Section]] | [[Manipulation of Stochasticity | Next Section]] </b></center> | <center><b> [[Origins and Characterization of Stochasticity | Previous Section]] | [[Manipulation of Stochasticity | Next Section]] </b></center> | ||
Latest revision as of 15:53, 10 December 2007
| In Depth | Modeling of Stochasticity | ||
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Deterministic vs. Stochastic Models
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The goal of modeling gene networks is to accurately predict the properties and functions of utilized modules in a synthetic device and to make dry lab suggestions for optimal design strategies prior to implementation in vivo (Collins et. al., 2003). The use of both deterministic and stochastic models have been employed to achieve this goal, however assumptions have to be made before a deterministic models can fit experimental data (Collins et. al., 2005). Most have found that the use of stochastic models is necessary in order to generate equations that can model wet lab results. | ||
