Difference between revisions of "Team:MIT/BiodieselProduction"

Revision as of 02:15, 19 September 2015

Biodiesel Production in E. coli

The Metabolic Pathway

Using the method given by Steen et al. (2010), we worked on engineering E. coli to produce fatty acid ethyl esters (FAEEs) directly from sugars. The metabolic pathway for this is given by the diagram:

In order to get E. coli to produce FAEEs from simple sugars, one must ensure overproduction of both fatty acyl-coA’s and ethanol. These are the substrates of the reaction, catalyzed by the wax ester synthase atfA, that produces FAEEs.

Steen et al. (2010) have made the following modifications to overproduce fatty acyl-coAs in E. coli:

Overexpression of a leaderless thioesterase A (‘tesA): E. coli naturally produces fatty acyl-ACPs from sugars via fatty acid biosynthesis (FAB) pathways. E. coli uses a native thioesterase A (tesA) enzyme to convert these fatty acyl-ACPs into free fatty acids. Others have shown that overexpressing a leaderless version of tesA, designated ‘tesA, which is targeted to the cytosol instead of the periplasm, causes a buildup of free fatty acids by disrupting regulation of fatty-acid synthesis (Cho and Cronan 1995; Liu et al. 2012).
Overexpression of fatty acid degradation D (fadD): in E. coli, fatty acid degradation D (fadD) enzyme catalyses the first step in E. coli beta-oxidation, the conversion of free fatty acids into fatty acyl-coA’s. By overexpressing this gene, one can increase the production of fatty acyl-coAs from the free fatty acids produced by ‘tesA (Steen et al. 2010).
Knockout of fatty acid degradation E (ΔfadE): fadE catalyzes the second step in fatty acid degradation and uses fatty acyl-CoA’s as substrates. In order to prevent the to prevent the degradation of fatty acyl-CoAs, the β-oxidation pathway was blocked by deleting the fadE gene (Steen et al. 2010).

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-			Biodiesel Production
+			Biodiesel Production in <i>E. coli</i>
 		</div>
 		<div class = "subtitle">
+The Metabolic Pathway
 		</div>
 		<div class = "text" align = "center">
+Using the method given by Steen et al. (2010), we worked on engineering E. coli to produce fatty acid ethyl esters (FAEEs) directly from sugars. The metabolic pathway for this is given by the diagram:
+<img src = "https://static.igem.org/mediawiki/2015/3/32/Team-MIT-final_circuit.png"
+height = auto
+width = 100%
+display = "center"
+<br> </br>
+In order to get E. coli to produce FAEEs from simple sugars, one must ensure overproduction of both fatty acyl-coA’s and ethanol. These are the substrates of the reaction, catalyzed by the wax ester synthase atfA, that produces FAEEs.
+<br> </br>
+Steen et al. (2010) have made the following modifications to overproduce fatty acyl-coAs in E. coli:
+<ol>
+  <li>Overexpression of a leaderless thioesterase A (‘tesA): E. coli naturally produces fatty acyl-ACPs from sugars via fatty acid biosynthesis (FAB) pathways. E. coli uses a native thioesterase A (tesA) enzyme to convert these fatty acyl-ACPs into free fatty acids. Others have shown that overexpressing a leaderless version of tesA, designated ‘tesA, which is targeted to the cytosol instead of the periplasm, causes a buildup of free fatty acids by disrupting regulation of fatty-acid synthesis (Cho and Cronan 1995; Liu et al. 2012).</li>
+  <li>Overexpression of fatty acid degradation D (fadD): in E. coli, fatty acid degradation D (fadD) enzyme catalyses the first step in E. coli beta-oxidation, the conversion of free fatty acids into fatty acyl-coA’s. By overexpressing this gene, one can increase the production of fatty acyl-coAs from the free fatty acids produced by ‘tesA (Steen et al. 2010).</li>
+  <li>Knockout of fatty acid degradation E (ΔfadE): fadE catalyzes the second step in fatty acid degradation and uses fatty acyl-CoA’s as substrates. In order to prevent the to prevent the degradation of fatty acyl-CoAs, the β-oxidation pathway was blocked by deleting the fadE gene (Steen et al. 2010).</li>
+</ol>
 		</div>