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Team:Paris Bettencourt/Experiments/YFP TetR diffusion
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<h3>YFP:tetR construction</h3> | <h3>YFP:tetR construction</h3> | ||
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<p><u>Fig1:</u> Cloning plan of YFP:tetR construction</center></p> | <p><u>Fig1:</u> Cloning plan of YFP:tetR construction</center></p> | ||
Revision as of 17:29, 12 September 2011
Experiments of the YFP concentration design
The planning of the experiments is the following : first we have tested the strains from D. Lane containing YFP:tetR and tetO array. Then we constructed/biobricked the YFP:tetR and tetO array system. To finish with the microscopy step and results of this proof of concept between B. subtilis and B. subtilis / E. coli.
Testing the YFP:tetR strains from D. Lane
In the article [1], E. coli strains are growing at 20°C to avoid protein agregation but the problem is that nanotube between B. subtilis has been only proved to exist at 37°C. We test different possibilities : at 37°C or 30°C and concentration of arabinose (0% - 0,1% -0,2%) to deal with protein agregation. |  |
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More pictures and information on the notebook [2].
Biobricked system construction
YFP:tetR construction
Fig1: Cloning plan of YFP:tetR construction
TetO array construction
Fig2: Cloning plan of TetO array construction
Results and microscopy of the proof of concept
In the emittor cell (B. Subtilis), we have inserted a expressive system for the YFP:tetR. It contains the promoter pVeg, the RBS for B. Subtilis and the YFP:tetR protein. Production of YFP:tetR will diffuse throught the nanotube to the receiver cell.
In the receiver cell (B. Subtilis or E. Coli), there is the tetO array where diffused YFP:tetR will concentrate. The YFP is the monitor of the signal.
The principle of the design is summed up in the image below
Fig1: Schematics of the YFP concentration design
