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The world is changing and so are the energy needs of humanity. Fossil fuels are not endless and it is clear that thea transition to clean sustainable energy has to be made. We believe synthetic biology can be an important catalyst in this process. Specifically, we engineer a <i>Bacillus subtilis</i>  biofilm to function as a cation exchange membrane. Such a membrane can be used in Reverse Electrodialysis (RED), a technique to generate energy where salt and fresh water mix, for example where rivers flow into the sea. We call this application of the bacterial biofilm Blue Bio Energy. It is estimated that it can meet 4-7 % of the world energy demand.
 
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Revision as of 20:54, 18 September 2015

The world is changing and so are the energy needs of humanity. Fossil fuels are not endless and it is clear that thea transition to clean sustainable energy has to be made. We believe synthetic biology can be an important catalyst in this process. Specifically, we engineer a Bacillus subtilis biofilm to function as a cation exchange membrane. Such a membrane can be used in Reverse Electrodialysis (RED), a technique to generate energy where salt and fresh water mix, for example where rivers flow into the sea. We call this application of the bacterial biofilm Blue Bio Energy. It is estimated that it can meet 4-7 % of the world energy demand.

<img class="image" src="Igem.groningen.2015.figure.small.front_carrier.png"/>

iGEM Groningen
00:00 00-00-2015
None
Carrier on which the biofilm grows
Our biofilm was grow on a carrier material for strength and durability. Whatman paper was chosen for its great biofilm growth and low cost. Four growth methods were studied to optimize biofilm growth and strength.

<img class="image" src="Igem.groningen.2015.figure.small.front_ionsel.png"/>

iGEM Groningen
00:00 00-00-2015
None
Biofilm ion selectivity
The ion selectivity for Na+ and Cl- of a membrane of negatively charged γ-PGA molecules was modelled using Molecular Dynamics. Wetlab testing was performed using B. subtilis Natto.

<img class="image" src="Igem.groningen.2015.figure.small.front_third.png"/>

iGEM Groningen
00:00 00-00-2015
None
Rigidity of the biofilm
To survive water flow, the biofilm has to be stable and robust. This was done by overexpressing genes involved in biofilm formation and by knocking out genes having the opposite effect.

<img class="image" src="Igem.groningen.2015.figure.small.front_fourth.png"/>

iGEM Groningen
00:00 00-00-2015
None
New shuttle vector
An extra integration locus for Bacillus, such as the thrC locus, is welcome when making a multiple mutant. The amyE locus parts of the BBa_K823023 backbone were replaced with the thrC locus parts from the plasmid pDG1664, resulting in a new shuttle vector.

<img class="image" src="Igem.groningen.2015.figure.small.front_notlast.png"/>

iGEM Groningen
00:00 00-00-2015
None
Human Practices
When working with GMOs, it is important to know the regulations and to think about the final application and the response of the public. To address this, we visited COGEM, designed an educational card game and considered several future scenarios involving GMOs and our project.

<img class="image" src="Igem.groningen.2015.figure.small.front_last.png"/>

iGEM Groningen
00:00 00-00-2015
None
Future perspective
Our bacteria need to stay and survive in the power plant. Ideally, the bacteria cannot escape, and the biofilm is sustained by using the nutrients present in water.