Team:ETH Zurich/labblog/20140825meet
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* We could fit degradation rates of external, internal AHL and GFP thanks to quorum sensing dynamic curves. | * We could fit degradation rates of external, internal AHL and GFP thanks to quorum sensing dynamic curves. | ||
- | [[File:ETH Zurich Model4.PNG|center|800px|thumb|Fitting of quorum sensing dynamic parameters. Check <html> <a id="insidelink" | + | [[File:ETH Zurich Model4.PNG|center|800px|thumb|Fitting of quorum sensing dynamic parameters. Check <html> <a id="insidelink" targetid="intparam" href="https://2014.igem.org/Team:ETH_Zurich/blog#qsparameters"> the corresponding article </a> </html> for more details.]] |
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<html> </article></html> | <html> </article></html> |
Revision as of 23:34, 7 October 2014
Week 14
Monday, August 25th
- We carried diffusion experiment with different designs : punched PDMS, liquid, beads. For every design we added high concentrations of pure AHL in the sender well, so cells are glowing a lot. However because of this high concentration, diffusion is very high and at a given AHL concentration, receiving cells are glowing at the same time for all 4 channel lengths. Check the corresponding article for more details.
- We have a Comsol simulation for these experiments that explains why at this concentration of AHL (1mM), all 4 wells glow at the same time irrespectively of channel length.
- We could fit degradation rates of external, internal AHL and GFP thanks to quorum sensing dynamic curves.
Fitting of quorum sensing dynamic parameters. Check the corresponding article for more details.