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Isobutanol

Short summary

Within the third module of our project the products of the carbon dioxide fixation will be used by the cell to produce the key metabolite pyruvate. Pyruvate can be converted in different products. We decided to introduce an isobutanol production pathway. For this we want to use and improve existing BioBricks (iGEM Team Formosa 2011/2012).
The modularity of BioBricks enables the exchange of a variety of producing systems. The producing pathway of variable high value products derived from pyruvate can be implemented. Hence, products like isoprene, putrescine or even antibiotics are possible candidates with industrial application.

Here you will find our results of the production of Isobutanol.
You can find more information about the underlying theory, our genetical approach and an outlook on our wiki

Product Synthesis

The third module benefits from the two modules before. E. coli has gained energy equivalents and reduction equivalents to generate pyruvate by binding carbon dioxide. By using the Calvin cycle the product of our CO2 fixation is pyruvate. This substance is now used as the initial point for the product synthesis. Pyruvate is a starting point of the producing pathways of a variety of high value products like isobutanol, isoprene, putrescine or even antibiotics. Our project implements the producing pathway of isobutanol by using and improving existing BioBricks (iGEM Team Formosa 2011/2012).

Figure 1: Schematic illustration of module III

The product synthesis can be changed through the modularity of BioBricks so that variable high value products derived from pyruvate can be implemented in the future.