Team:EPF-Lausanne/Our Project/Plasmids strategy

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We are using TetR and LacI to inverse the repression, which allows positive selection. We will select at two levels: in vivo and in vitro, using either lysis cassette or RFP respectively:
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We are building a system containing TetR and LacI, that control the expression of a selection gene. The sequential use of these two repressors allows us to have a direct activation of the selection gene when TetR binds its recognition sequence.
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[[File:EPFL_Summary_(with_TFs).png|700 px]]
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The selection gene is either RFP or a lysis cassette. Having both constructs will allow us to select at two levels: in vivo and in vitro:
* in vitro: We can test the binding of TetR directly on plates by measuring RFP fluorescence  
* in vitro: We can test the binding of TetR directly on plates by measuring RFP fluorescence  
* in vivo: The cells will grow on chemostat chips. If TetR binds to the recogintion sequence, the cells will lyse and we will be able to recover the DNA
* in vivo: The cells will grow on chemostat chips. If TetR binds to the recogintion sequence, the cells will lyse and we will be able to recover the DNA
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We have one plasmid with the TetR gene, where we will introduce mutations and two plasmids for in vivo or in vitro selection:
 
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We need several plasmids to build our entire system. We chose a 2-plasmid strategy that looks like this:
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* One plasmid containing TetR under a constitutive promoter
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* One plasmid containig LacI under TetR repression and RFP or lysis under LacI repression
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[[File:EPFL_Plasmids.png|700 px]]
 
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[[File:EPFL_Plasmids.png|700 px]]
[[File:EPFL_Plasmids(RFP_instead_of_Lysis).png|700 px]]
[[File:EPFL_Plasmids(RFP_instead_of_Lysis).png|700 px]]
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Revision as of 12:45, 20 July 2011

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