Team:ULB-Brussels

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|Our team is composed of 10 people for the wetlab part, philosophs and economists will give their unique perspective on our project and synthetic biology.
|Our team is composed of 10 people for the wetlab part, philosophs and economists will give their unique perspective on our project and synthetic biology.
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Revision as of 08:37, 30 July 2010


Our team is composed of 10 people for the wetlab part, philosophs and economists will give their unique perspective on our project and synthetic biology.
ULB-logo+titre-large.jpg
SceauULB.jpg

In this ever more energy-dependent world, where fossil fuel ressources become scarce and raise environmental issues, the search for green energy sources is a growing concern in both civil and scientific communities. In this context, hydrogen turns out to be an interesting alternative.

However, current hydrogen production relies mostly on chemical processes, such as petroleum cracking or water electrolysis. In order to develop greener and more energy-efficient processes, the use of micro-organisms as biocatalysts for hydrogen production has been studied for many years. While no practical application has yet been achieved, nowadays the scientifical and technological advances allow further developments and opportunites in this field.

The actual use of dark fermentation to produce hydrogen attains very low yields, compared to other fermentative biofuel synthesis, e.g. methane or ethanol. We propose to design a genetically engineered E. Coli, with an improved natural hydrogen production pathway, using the organic compounds found in waste waters as substrate. In addition, we will implement various features to enable the strain to perform other tasks related to wastewater treatment, such as signaling metallic contamination, eliminating nitrogen compounds, or hindering hydrogen consumption by methanogenic bacteria. We will also set up a planned death system in order to prevent its proliferation outside the wastewater treatment plant.

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