Team:SDU-Denmark/project-i

From 2010.igem.org

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(Retinal biosynthesis)
(Prospects)
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On top of creating a microfluidic flow generator, we hope to simultaneously 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, thus causing them to mix. <br><br>
On top of creating a microfluidic flow generator, we hope to simultaneously 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, thus causing them to mix. <br><br>
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The plan is that these three subprojects will result in at least one biobrick each:<br>
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The plan is that these three subprojects will result in at least one BioBrick each:<br>
•    A constitutively active operon encoding the master regulator of flagella synthesis.<br>
•    A constitutively active operon encoding the master regulator of flagella synthesis.<br>
•    A photosensor, reacting to blue light, coupled to the chemotaxis pathway.<br>
•    A photosensor, reacting to blue light, coupled to the chemotaxis pathway.<br>

Revision as of 18:45, 24 October 2010