Difference between revisions of "Manipulation of Stochasticity"
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[[Noise in Feedback Loops|<span style="color:red"> Noise in Feedback Loops</span>]] | [[Noise in Feedback Loops|<span style="color:red"> Noise in Feedback Loops</span>]] | ||
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− | | | + | | The construction of gene networks proves to be a noisy process that is difficult to produce a deterministic result. Many labs have tried to characterize sources of expression noise that occur when linking genes together in a network. More specifically, what effect does a noisy or tightly controlled input have on output. Discovering the effects of noise propagation of in genetic cascades has major implications in the field of synthetic biology. From an engineering standpoint, the degree of control over a synthetic system can mean the difference between a synthetic construct's sucess or failure to achieve its purpose (ex. medical applications). |
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<center><b> [[Modeling Stochasticity | Previous Section]] | [[Evolved Stochasticity? | Next Section]] </b></center> | <center><b> [[Modeling Stochasticity | Previous Section]] | [[Evolved Stochasticity? | Next Section]] </b></center> |
Revision as of 01:18, 6 December 2007
In Depth | How Stochasticity Influences Synthetic Constructs | ||
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The construction of gene networks proves to be a noisy process that is difficult to produce a deterministic result. Many labs have tried to characterize sources of expression noise that occur when linking genes together in a network. More specifically, what effect does a noisy or tightly controlled input have on output. Discovering the effects of noise propagation of in genetic cascades has major implications in the field of synthetic biology. From an engineering standpoint, the degree of control over a synthetic system can mean the difference between a synthetic construct's sucess or failure to achieve its purpose (ex. medical applications). |