Team:KULeuven/Abstract
From 2009.igem.org
Bart Bosmans (Talk | contribs) |
(→Vanilla Perfume, the story of a control bacterium) |
||
(2 intermediate revisions not shown) | |||
Line 3: | Line 3: | ||
__NOTOC__ | __NOTOC__ | ||
- | == Vanilla Perfume, the story of a | + | == Vanilla Perfume, the story of a self-regulating bacterium == |
- | ‘''Essencia coli''’ is a vanillin producing bacterium equipped with a control system that keeps the concentration of vanillin at a constant level. The showpiece of the project is the feedback mechanism. Vanillin synthesis is initiated by irradiation with blue light. The preferred concentration can be modulated using the intensity of that light. At the same time the bacterium measures the amount of vanillin outside the cell and controls its production to maintain the set point. The designed system is universal in nature and has therefore potential benefits in different areas. The concept can easily be applied to other flavours and odours | + | ‘''Essencia coli''’ is a vanillin producing bacterium equipped with a control system that keeps the concentration of vanillin at a constant level. The showpiece of the project is the feedback mechanism. Vanillin synthesis is initiated by irradiation with blue light. The preferred concentration can be modulated using the intensity of that light. At the same time the bacterium measures the amount of vanillin outside the cell and controls its production to maintain the set point. The designed system is universal in nature and has therefore potential benefits in different areas. The concept can easily be applied to other flavours and odours. In fact, any application that requires a constant concentration of a molecular substance is possible. |
Latest revision as of 12:42, 8 September 2009
Vanilla Perfume, the story of a self-regulating bacterium
‘Essencia coli’ is a vanillin producing bacterium equipped with a control system that keeps the concentration of vanillin at a constant level. The showpiece of the project is the feedback mechanism. Vanillin synthesis is initiated by irradiation with blue light. The preferred concentration can be modulated using the intensity of that light. At the same time the bacterium measures the amount of vanillin outside the cell and controls its production to maintain the set point. The designed system is universal in nature and has therefore potential benefits in different areas. The concept can easily be applied to other flavours and odours. In fact, any application that requires a constant concentration of a molecular substance is possible.