Difference between revisions of "Team:Bordeaux/Template:HomeAbstract"
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<h4 align="justify"> <font color="black" size="5px"> We plan on using two host organisms: <i> sacharomyces cerevisiae </i> which naturally produces curdlan and <i> Escherichia coli </i>, the most common organism used for synthetic biology. Our genes will be synthethized industrially by IDT and will be inserted respectively in yeast or E. coli with their appropriate promoters.. These modified cells will then be cultivated to produce our curdlan molecule in large quantities. The final step of our project will be to extract the curdlan molecule and to quantify our production and to sulfate the molecules if possible. </font> </h4> | <h4 align="justify"> <font color="black" size="5px"> We plan on using two host organisms: <i> sacharomyces cerevisiae </i> which naturally produces curdlan and <i> Escherichia coli </i>, the most common organism used for synthetic biology. Our genes will be synthethized industrially by IDT and will be inserted respectively in yeast or E. coli with their appropriate promoters.. These modified cells will then be cultivated to produce our curdlan molecule in large quantities. The final step of our project will be to extract the curdlan molecule and to quantify our production and to sulfate the molecules if possible. </font> </h4> | ||
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Revision as of 13:54, 13 July 2015
To sum it up
We plan on using two host organisms: sacharomyces cerevisiae which naturally produces curdlan and Escherichia coli , the most common organism used for synthetic biology. Our genes will be synthethized industrially by IDT and will be inserted respectively in yeast or E. coli with their appropriate promoters.. These modified cells will then be cultivated to produce our curdlan molecule in large quantities. The final step of our project will be to extract the curdlan molecule and to quantify our production and to sulfate the molecules if possible.
