Difference between revisions of "Team:Aachen/InteractiveTour31"
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{{Team:Aachen/Header}} | {{Team:Aachen/Header}} | ||
<p class="headline" style="display:none;">Biological Approach</p> | <p class="headline" style="display:none;">Biological Approach</p> | ||
− | After it became clear that we wanted to enable ''Escherichia coli'' to convert methanol into glycogen we had to find a suitable pathway for methanol assimilation. We found the Methanol Condensation Cycle (MCC) to be the most promising one. For implementing the MCC in ''E. coli'', four additional genes are required: | + | After it became clear that we wanted to enable ''Escherichia coli'' to convert methanol into glycogen, we had to find a suitable pathway for methanol assimilation. We found the Methanol Condensation Cycle (MCC) to be the most promising one. For implementing the MCC in ''E. coli'', four additional genes are required: |
* methanol dehydrogenase 2 from ''Bacillus methanolicus'' (Mdh) | * methanol dehydrogenase 2 from ''Bacillus methanolicus'' (Mdh) | ||
* 3-hexulose-6-phosphate synthase from ''Bacillus methanolicus'' (Hps) | * 3-hexulose-6-phosphate synthase from ''Bacillus methanolicus'' (Hps) | ||
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On top of that accumulation can be considerably increased by knocking out glycogen degradation enzymes. Those are GlgP, the glycogen phosphorylase and GlgX, the debranching enyzme. | On top of that accumulation can be considerably increased by knocking out glycogen degradation enzymes. Those are GlgP, the glycogen phosphorylase and GlgX, the debranching enyzme. | ||
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+ | By modeling both pathways, we found out that the combination of both modules is possible and can result in remarkable glycogen accumunlation. | ||
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{{Team:Aachen/Footer|color=green}} | {{Team:Aachen/Footer|color=green}} |
Revision as of 22:10, 18 September 2015