Tokyo Alliance: Significance

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(Our contributions to the iGEM and SynBio World)
(Our contributions to the iGEM and SynBio World)
 
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* Expansion of '''inducer library'''.
* Expansion of '''inducer library'''.
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:One of the biggest problem in Synthetic Biology is only a few numbers of inducer of transcriptional regulators.
* Diverse '''regulatory region library''' by '''Systematic design/construction'''
* Diverse '''regulatory region library''' by '''Systematic design/construction'''
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[[Image:significance.jpg]]
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:[[Image:significance1.jpg|500px|]]
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[[Image:significance2.jpg]]
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:As long as we use previous iGEM methods, it is arduous to construct regulatory regions to which multiple transcriptional regulators bind.
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:[[Image:significance2.jpg|500px|]]
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:Combinatorial rewiring of these parts allows replacing regulators.
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:For example, if so, we can replace the regulator binding sites between -10 and RBS.
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'''See our [[Tokyo_Alliance:_Conclusion#Construction_Family_Tree |Construction Family Tree]] (Results Page) !'''

Latest revision as of 13:04, 1 November 2006

Top : Introduction : Significance : Design/Method : Results/Conclusion : About Tokyo Alliance


Our contributions to the iGEM and SynBio World

  • Expansion of inducer library.
One of the biggest problem in Synthetic Biology is only a few numbers of inducer of transcriptional regulators.
  • Diverse regulatory region library by Systematic design/construction
Significance1.jpg
As long as we use previous iGEM methods, it is arduous to construct regulatory regions to which multiple transcriptional regulators bind.
Significance2.jpg
Combinatorial rewiring of these parts allows replacing regulators.
For example, if so, we can replace the regulator binding sites between -10 and RBS.


See our Construction Family Tree (Results Page) !

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