Team:EPF-Lausanne/Our Project/Plasmids strategy

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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.
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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[[File:EPFL_Summary_(with_TFs).png|650 px]]
The selection gene is either RFP or a lysis cassette. RFP allows direct recognition of correctly assembled plasmids, which is also useful to see if the transformation has been efficient. Furthermore, it is an easy way to detect TetR binding. The lysis cassette will be useful for chemostat cultures, allowing us to recover DNA from mutants in which TetR binds to a sequence (either consensus sequence or modified one). We hope that the chemostat chambers will allow high-throughput <i>in vivo</i> selection of our mutants.
The selection gene is either RFP or a lysis cassette. RFP allows direct recognition of correctly assembled plasmids, which is also useful to see if the transformation has been efficient. Furthermore, it is an easy way to detect TetR binding. The lysis cassette will be useful for chemostat cultures, allowing us to recover DNA from mutants in which TetR binds to a sequence (either consensus sequence or modified one). We hope that the chemostat chambers will allow high-throughput <i>in vivo</i> selection of our mutants.

Latest revision as of 11:42, 5 August 2011