Difference between revisions of "Team:Wageningen UR/Demonstrate"

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We also made a visualization of our design together with the Design Academy Eindhoven. You can see our design in our <a href=https://2016.igem.org/Team:Wageningen_UR/HP/Gold#Design>design page</a>.
  
 
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Revision as of 01:10, 20 October 2016

Wageningen UR iGEM 2016

 

 

Demonstrate

Our project does not have a finished product that is ready to be deployed in the field. However, we felt that we've accomplished a great many parts of our project and we want to show you what we did. In terms of a demonstration we've accomplished to be able to sense Varroa destructor mites using riboswitches. We can sense the guanine in mite feces and vitamin B12. Which we also tested on crushed up hive fragments. We can not demonstrate the BeeT product in the field, as this would break the do not release requirement. We also can not keep a bee hive in the lab, for obvious reasons. Therefore, we tested pieces of a bee hive for mite feces. We simulated the sugar water conditions, BeeT would encounter when applied, in the lab to check for survival. This is shown in Figure 2.

Figure 12. The relationship between the maximum ATP available for survival for an E. coli in a sugar-water environment and the theoretical survival time, given a constant water efflux over this time and a starting volume of 2.8e-13 grams. The various coloured lines indicate water tolerance thresholds for the E. coli

Additionally, we modeled the impact of BeeT on bee and mite dynamics under real world weather conditions. We show this in figure 3.

Figure 13. The honey bee population is shown in blue and the Varroa mite population in red. A: Colony rapidly declines when no BeeT is present. Starting population is 20 Varroa B: Colony barely survives Varroa mite infestation. Shows Varroa mite in red and worker bee population in blue. Starting population is 20 Varroa. C: Colony thrives regardless of Varroa mite infestation. Starting population is 20 Varroa mites. D: Colony thrives regardless of heavy Varroa mite infestation. Starting population is 10.000 Varroa mites.
We also made a visualization of our design together with the Design Academy Eindhoven. You can see our design in our design page.