Team:BNU-China/collaboration.html

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<h2>Collaboration</h2>
<h2>Collaboration</h2>
<p>We helped Peking iGEM team in modeling this year. We both focused on E.coil motility while solving our problems. Peking wanted to use a motility model in which E.coil will diffuse freely to the algae. To solve their problem,  we suggested that Fick’s lawof diffusion be a good choice. We designed is a dynamic modeling of E. Coli and peanut root system, which quantitatively describes the process of the engineered bacteria carrying Mo towards the root as a porter.</p>
<p>We helped Peking iGEM team in modeling this year. We both focused on E.coil motility while solving our problems. Peking wanted to use a motility model in which E.coil will diffuse freely to the algae. To solve their problem,  we suggested that Fick’s lawof diffusion be a good choice. We designed is a dynamic modeling of E. Coli and peanut root system, which quantitatively describes the process of the engineered bacteria carrying Mo towards the root as a porter.</p>
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<img class="left" src="https://static.igem.org/mediawiki/2014/7/78/Bnu_collaboration1.jpg" />
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<img class="left" width=50% src="https://static.igem.org/mediawiki/2014/7/78/Bnu_collaboration1.jpg" />
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</html>
{{Team:BNU-China/foot}}
{{Team:BNU-China/foot}}

Revision as of 02:24, 16 October 2014

Collaboration

We helped Peking iGEM team in modeling this year. We both focused on E.coil motility while solving our problems. Peking wanted to use a motility model in which E.coil will diffuse freely to the algae. To solve their problem, we suggested that Fick’s lawof diffusion be a good choice. We designed is a dynamic modeling of E. Coli and peanut root system, which quantitatively describes the process of the engineered bacteria carrying Mo towards the root as a porter.