Team:INSA-Lyon/Results

From 2014.igem.org

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<div align="center"><figcaption><b>Figure 1 : GFP expression plasmid for promoter characterization. The promoter sequence can either be the 70 (P70) or the 750 base-pair promoter sequence.</b></figcaption></div>
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<div align="center"><figcaption><b>Figure 1 : GFP expression plasmid for promoter characterization. The promoter sequence can either be the 70 (P70) or the 750 base-pair promoter sequence.</b></figcaption>
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On a pKK backbone, two essential parts have been assembled: a promoter and a reporter gene. The reporter gene in this case is always the same: GFP. However, the promoter is different for each construction.
On a pKK backbone, two essential parts have been assembled: a promoter and a reporter gene. The reporter gene in this case is always the same: GFP. However, the promoter is different for each construction.
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<div align="center"><figcaption><b>Figure 2 : Promoter expression as a function of the Optical Density. At early growth stage, P70 has a higher expression rate at 37°C relatively to the P750.</b></figcaption></div>
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<div align="center"><figcaption><b>Figure 2 : Promoter expression as a function of the Optical Density. At early growth stage, P70 has a higher expression rate at 37°C relatively to the P750.</b></figcaption>
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<div align="center"><figcaption><b>Figure 3 : Promoter expression as a function of the Optical Density. At mid/late growth stage, P750 has a delayed but higher expression rate at 30°C relatively to the P70.</b></figcaption></div>
<div align="center"><figcaption><b>Figure 3 : Promoter expression as a function of the Optical Density. At mid/late growth stage, P750 has a delayed but higher expression rate at 30°C relatively to the P70.</b></figcaption></div>
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Revision as of 02:32, 18 October 2014

Curly'on - IGEM 2014 INSA-LYON

  • Curli characterization


  • Nickel chelation


  • Survival after UV and high temperature exposure


  • Promoter optimization and characterization