Team:INSA-Lyon/Results

From 2014.igem.org

(Difference between revisions)
Line 271: Line 271:
               <li>
               <li>
-
<p align="justify"><p>
+
<p><p align="justify">
As a follow-up to the exploration of curli production and nickel chelation, we want to know the kinetics behind the 70 base-pair long promoter sequence that we used through this whole summer.
As a follow-up to the exploration of curli production and nickel chelation, we want to know the kinetics behind the 70 base-pair long promoter sequence that we used through this whole summer.
In fact, it has the interesting property of being activated at 37°C instead of the 30°C of the natural 750 base-pair CsgA promoter from where it is orginially isolated. However, we explored these two promoters' kinetics at 30 and 37°C by inserting a GFP downstream.
In fact, it has the interesting property of being activated at 37°C instead of the 30°C of the natural 750 base-pair CsgA promoter from where it is orginially isolated. However, we explored these two promoters' kinetics at 30 and 37°C by inserting a GFP downstream.
-
</p>
 
-
<p>
+
 
 +
 
On a pKK backbone, two essential parts have been assembled: a promoter and a reporter. The reporter 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. The reporter in this case is always the same: GFP. However, the promoter is different for each construction.
One a first hand, P70 is the 70 base-pair long promoter sequence and when combined to the reporter GFP is called p70:GFP.
One a first hand, P70 is the 70 base-pair long promoter sequence and when combined to the reporter GFP is called p70:GFP.

Revision as of 22:00, 17 October 2014

Curly'on - IGEM 2014 INSA-LYON

  • Curli characterization


  • Nickel chelation


  • Survival after UV and high temperature exposure


  • Promoter optimization and characterization