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[J]. Journal of Biological Chemistry, 2004, 279(7): 5685-92.</h5> | [J]. Journal of Biological Chemistry, 2004, 279(7): 5685-92.</h5> | ||
<h2 style="text-align:center"> How we use these basic parts?</h2> | <h2 style="text-align:center"> How we use these basic parts?</h2> | ||
− | + | <center> <img src="https://static.igem.org/mediawiki/2017/c/ce/5%2C6%2C7%2C8%EF%BC%8C10.png" class="img-responsive"></center> | |
<center>Fig.5:DAK;6:NOX;7,ceaS2;8:gld;10:CAT</center> | <center>Fig.5:DAK;6:NOX;7,ceaS2;8:gld;10:CAT</center> | ||
<h4>We designed a GDC (GlyDH-DAK-Ceas2) pathway that could produce acrylic acid using glycerol. In this pathway, GlyDH (Glycerol dehydrogenase,BBa_K2347001) can efficiently convert glycerol to DHA (1,3-Dihydroxyacetone), and then DAK(Dihydroxyacetone kinase,BBa_K2347002) enzyme can phosphorylate DHA to DHAP, and then the ceaS2 Enzyme (BBa_K2347000)can make it into acrylic acid. | <h4>We designed a GDC (GlyDH-DAK-Ceas2) pathway that could produce acrylic acid using glycerol. In this pathway, GlyDH (Glycerol dehydrogenase,BBa_K2347001) can efficiently convert glycerol to DHA (1,3-Dihydroxyacetone), and then DAK(Dihydroxyacetone kinase,BBa_K2347002) enzyme can phosphorylate DHA to DHAP, and then the ceaS2 Enzyme (BBa_K2347000)can make it into acrylic acid. |
Revision as of 20:38, 1 November 2017
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