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Team:Imperial College London/Major results
From 2009.igem.org
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This page contains highlights of our major results and simulations. It is by no means complete. However, more results will be presented at the jamboree. | This page contains highlights of our major results and simulations. It is by no means complete. However, more results will be presented at the jamboree. | ||
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| + | ==<b>Module 2 - Encapsulation</b>== | ||
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| + | Cell growth under acidic environment | ||
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| + | ==</b>Module 3 - Genome Deletion</b>== | ||
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| + | genomic cell death | ||
| + | cell death model | ||
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| + | ==Module Integration - Autoinduction== | ||
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| + | crp promoter | ||
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| + | diauxic growth | ||
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| + | ==Module Integration - Thermoinduction== | ||
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| + | hvd gfp | ||
<!--==Simulations: Chemoinduction for <b>Module 1</b>== | <!--==Simulations: Chemoinduction for <b>Module 1</b>== | ||
Revision as of 20:50, 21 October 2009
Contents |
Major Results
This page contains highlights of our major results and simulations. It is by no means complete. However, more results will be presented at the jamboree.
Module 2 - Encapsulation
Cell growth under acidic environment
</b>Module 3 - Genome Deletion</b>
genomic cell death cell death model
Module Integration - Autoinduction
crp promoter
diauxic growth
Module Integration - Thermoinduction
hvd gfp
References
[1]Physica A: Statistical and Theoretical Physics, Vol. 188, No. 1-3. (1 September 1992), pp. 404-425. A rigorous derivation of the chemical master Equation
