Team:SDU-Denmark/project-i

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== Retinal Biosynthesis ==
== Retinal Biosynthesis ==
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Regulation of the pump will be introduced through a photo-sensing chimeric fusion protein that has recently been shown to integrate with the E. coli chemotaxis system [http://pubs.acs.org/doi/abs/10.1021/bi034399q], to control tumbling frequencies in our bacteria, thereby giving us control over the amount of turbulence disrupting our pump via a blue light source. This will result in an off-switch, since the blue light increases the tumbling frequency, which disturbs the flow. The more bacteria tumble instead of following the "run" pattern, the weaker (or nonexistent) the flow woll be. The parts contributed will in effect introduce phototaxic ability to E. coli.
 
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For the photoreceptor to work, we will need to supply it with retinal. Therefor we will be building on work done in the Cambridge 2009 project, that introduced beta-carotene synthesis in E. coli, and contribute an enzyme that will catalyze cleavage of beta-carotene into retinal. By this our biological machine can supply it self with everything it needs to function, so that once the system has been established, there is need to intervene (except for the light regulation).<br>
For the photoreceptor to work, we will need to supply it with retinal. Therefor we will be building on work done in the Cambridge 2009 project, that introduced beta-carotene synthesis in E. coli, and contribute an enzyme that will catalyze cleavage of beta-carotene into retinal. By this our biological machine can supply it self with everything it needs to function, so that once the system has been established, there is need to intervene (except for the light regulation).<br>
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Revision as of 22:34, 18 October 2010