Team:SDU-Denmark/project-i

From 2010.igem.org

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(Phototaxis)
(Our Approach)
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For the photoreceptor to work, we will need to supply it with enzymes for retinal biosynthesis. Retinal is formed by cleaving Beta-carotene, a reaction that is catalyzed by Beta-carotene-oxygenases. We will be supplying a new biobrick that expresses a Beta-carotene 15'15-monooxygenase from Drosophila Melanogaster. Beta-carotene biosynthesis will be supplied by a part made by the Cambridge 2009 team. We Have also done further characterisation of the Cambridge part in new strains and with different analytical methods.
For the photoreceptor to work, we will need to supply it with enzymes for retinal biosynthesis. Retinal is formed by cleaving Beta-carotene, a reaction that is catalyzed by Beta-carotene-oxygenases. We will be supplying a new biobrick that expresses a Beta-carotene 15'15-monooxygenase from Drosophila Melanogaster. Beta-carotene biosynthesis will be supplied by a part made by the Cambridge 2009 team. We Have also done further characterisation of the Cambridge part in new strains and with different analytical methods.
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= Prospects =
= Prospects =
On top of creating a microfluidic flow generator, we will hopefully at the same time create a system that can mix fluids in microtubes. It is often a problem when working in nano-scale spaces that if you let two liquids flow into them, they will not mix. The turbulence created by the bacteria's flagella will make both liquids move around randomly in the tube, so that they will become one in the end. <br><br>
On top of creating a microfluidic flow generator, we will hopefully at the same time create a system that can mix fluids in microtubes. It is often a problem when working in nano-scale spaces that if you let two liquids flow into them, they will not mix. The turbulence created by the bacteria's flagella will make both liquids move around randomly in the tube, so that they will become one in the end. <br><br>

Revision as of 22:50, 18 October 2010