Team:EPF-Lausanne/Our Project/Summary

From 2011.igem.org

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(Lysis-based transcription factor selection)
(Lysis-based transcription factor selection)
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We made a co-culture of cells. One culture had the lysis cassette and an RFP plasmid, while the other had a GFP plasmid and no lysis cassette. Upon induction with IPTG, the qPCR and transformation methods of the previous experiment showed that RFP was recovered in large quantities and only trace quantities of GFP are detected.  
We made a co-culture of cells. One culture had the lysis cassette and an RFP plasmid, while the other had a GFP plasmid and no lysis cassette. Upon induction with IPTG, the qPCR and transformation methods of the previous experiment showed that RFP was recovered in large quantities and only trace quantities of GFP are detected.  
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  [qPCR data]
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[[File:Rgfp_lysis_comparison.png|400px]]
''' 4) demonstrating that promoter strength (i.e. transcription factor- DNA binding) has a direct impact on the amount and speed of lysing '''
''' 4) demonstrating that promoter strength (i.e. transcription factor- DNA binding) has a direct impact on the amount and speed of lysing '''
We ran a platereader experiment with multiple cultures, each culture containing a plasmid with a different T7 promoter mutant driving the lysis cassette. Induction with IPTG shows that having different promoters results in varying lysis strengths and speeds. This approach with promoter mutants supplies an alternate way of showing that favorable transcription-factor mutants will lyse cells more rapidly and efficiently then their peers. The resulting supernatant will therefore contain a proportionally high number of the better TF mutant DNA, which can be recovered and sequenced.
We ran a platereader experiment with multiple cultures, each culture containing a plasmid with a different T7 promoter mutant driving the lysis cassette. Induction with IPTG shows that having different promoters results in varying lysis strengths and speeds. This approach with promoter mutants supplies an alternate way of showing that favorable transcription-factor mutants will lyse cells more rapidly and efficiently then their peers. The resulting supernatant will therefore contain a proportionally high number of the better TF mutant DNA, which can be recovered and sequenced.
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[[File:t7_3_lysis_col3.png|400px]]
== Characterisation ==
== Characterisation ==

Revision as of 14:43, 28 October 2011