Team:SDU-Denmark/Tour61

From 2014.igem.org

(Difference between revisions)
Line 20: Line 20:
<li>Transform cellulase into Edible coli, so that the bacteria is able to break down cellulose to glucose
<li>Transform cellulase into Edible coli, so that the bacteria is able to break down cellulose to glucose
and use cellulose as a carbon source.</li>
and use cellulose as a carbon source.</li>
-
</ul><br><br>
+
</ul><br>
<span class="intro">We thought about much</span> other potential of Edible coli. It would be great to design a bacteria that express different amounts of the individual amino acids and fats, which would be regulated individually and  
<span class="intro">We thought about much</span> other potential of Edible coli. It would be great to design a bacteria that express different amounts of the individual amino acids and fats, which would be regulated individually and  
customized to the need of the consumer. To get an even more nourishing product, Edible coli might also  
customized to the need of the consumer. To get an even more nourishing product, Edible coli might also  

Revision as of 14:12, 17 October 2014

Next steps

Edible coli is an innovative idea with big potential to be put into practice as a food source in the future. It seems like our bacteria is expressing the self designed protein, which was a major part of the project. But to complete the development of all our project ideas, and create a fully fledged Edible coli, the following points must be fulfilled.

  • UPR (unfolded protein response) mechanisms must be studied further. A result from one of our Western Blot experiments showed a band that fits with the length of a protease, which means that it might be expressed during the expression of our OneProt.
  • Transform OneProt into an odorfree strain. Further analyse the growth of the bacteria, to compare with the growth curve of wild type K12 strain Escherichia coli containing OneProt.
  • Isolate and purify Δ9 and Δ15 desaturase and transform into Edible coli for ω3 and ω6 fatty acid syntheses.
  • Characterize and analyse flavor improvements.
  • Transform cellulase into Edible coli, so that the bacteria is able to break down cellulose to glucose and use cellulose as a carbon source.

We thought about much other potential of Edible coli. It would be great to design a bacteria that express different amounts of the individual amino acids and fats, which would be regulated individually and customized to the need of the consumer. To get an even more nourishing product, Edible coli might also produce vitamins and minerals.
Furthermore, the bacteria might have a safety mechanism, which kills the cell when it escapes to the environment. For that reason knockout bacteria might be used. When all ribozymes are knocked out and only incorporated in the plasmid, the bacteria will die, when it loses its plasmid. This is also a good way to select without the use of antibiotics.

At least, eating bacteria has been the major ethical issue during our design and development of Edible coli. This led us to the idea of transferring our system into another organism, like for example yeast that is accepted as food, although it is a living organism. Unfortunately yeast does not include all amino acid pathways, which makes it a big project to transform all essential enzymes.
In addition, it might be a good idea to transfer our system into eukaryotic cells and study the growth and morphology of the cells over time, to see if the system is toxic or if it has any influence on the cells at all.