Team:SDU-Denmark/project-bc

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(Difference between revisions)
(Description of the model)
(Motivation)
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<p style="text-align: justify;">In order to create a flow with bacteria using their flagella movement as the motor, it is important to understand bacterial motility and the effects our genetic manipulation have on it.<br>   
<p style="text-align: justify;">In order to create a flow with bacteria using their flagella movement as the motor, it is important to understand bacterial motility and the effects our genetic manipulation have on it.<br>   
Bacterial motion resembles a random walk, with periods of smooth swimming interrupted by brief tumbles that change the swimming direction. Chemotaxis is achieved by modulation of the tumbling frequency.<br>  
Bacterial motion resembles a random walk, with periods of smooth swimming interrupted by brief tumbles that change the swimming direction. Chemotaxis is achieved by modulation of the tumbling frequency.<br>  
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In our case, we have added phototaxis to ''E. coli'' cells making them react to light as well as chemical gradients.<br>  
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In our case, we have added phototaxis to ''E. coli'' MG1655 cells making them react to light as well as chemical gradients.<br>  
By creating a model describing the key features of the system, it will be possible to study the biochemical behaviour of such a system, and how different parameters will affect it, before it is implemented in a bacterial strain.</p>
By creating a model describing the key features of the system, it will be possible to study the biochemical behaviour of such a system, and how different parameters will affect it, before it is implemented in a bacterial strain.</p>

Revision as of 18:51, 26 October 2010