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for production of Biofuels</div><br><div class="abstractdesc"> In light of the growing energy crisis, much research has been devoted to finding economical means of producing renewable fuels. <br>Traditional methods for obtaining biofuels have relied mainly on the fermentation of agricultural crops. However, there are a number of problems with this approach: the reduction in land available for food production, relatively low levels of CO2 biofixation, and large biomass requirements. Our project aims to overcome these problems by utilizing E. coli for the production of biodiesel (C-12 fatty acids) and bioethanol. In the past there have been a number of examples of biofuel production in E. coli; however 30-40% of production cost is based on media costs. Our project will surmount these high production costs by engineering the cyanobacteria, Synechocystis PCC 6803, to secrete large quantities of glucose that will feed our biofuel-producing E. coli. Cyanobacteria and E. coli will be co-cultivated in an apparatus that allows for the mutual transfer of carbon to produce biofuels. Not only will this project provide an efficient means for producing biofuels without the need for a carbon source, but it will also create a novel cooperative system between bacterial species that may have further industrial implications.</div></div> | for production of Biofuels</div><br><div class="abstractdesc"> In light of the growing energy crisis, much research has been devoted to finding economical means of producing renewable fuels. <br>Traditional methods for obtaining biofuels have relied mainly on the fermentation of agricultural crops. However, there are a number of problems with this approach: the reduction in land available for food production, relatively low levels of CO2 biofixation, and large biomass requirements. Our project aims to overcome these problems by utilizing E. coli for the production of biodiesel (C-12 fatty acids) and bioethanol. In the past there have been a number of examples of biofuel production in E. coli; however 30-40% of production cost is based on media costs. Our project will surmount these high production costs by engineering the cyanobacteria, Synechocystis PCC 6803, to secrete large quantities of glucose that will feed our biofuel-producing E. coli. Cyanobacteria and E. coli will be co-cultivated in an apparatus that allows for the mutual transfer of carbon to produce biofuels. Not only will this project provide an efficient means for producing biofuels without the need for a carbon source, but it will also create a novel cooperative system between bacterial species that may have further industrial implications.</div></div> | ||
<div id="main-content"> | <div id="main-content"> | ||
| - | Top News | + | <img src="https://static.igem.org/mediawiki/2011/9/93/Megan-Results.jpg" height=350px; width=475px; style="border:none; float:right; clear:right; margin:5px; padding:5px;"> |
| + | <div class="News-content" align="left"><font size="20">Top News</font><hr width=30%> | ||
| + | |||
</div> | </div> | ||
| - | + | </div> | |
| + | <!-- | ||
| + | <div id="sponsers-content"> | ||
| + | Office of the President University of Nevada, Reno | ||
| + | Nevada INBRE | ||
| + | University of Nevada Department of Biochemistry and Molecular Biology | ||
| + | University of Nevada College of Agriculture, Biotechnology, and Natural Resources | ||
| + | Atlantis | ||
| + | </div> | ||
| + | --> | ||
</body> | </body> | ||
</html> | </html> | ||
Revision as of 20:32, 28 July 2011
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/* Wiki Hacks - START */
/* Author: Pieter van Boheemen */
/* Team: TU Delft */
/* Thanks guys - Bill Collins */
/* +1 - Douglas Watson */
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/* Author: Pieter van Boheemen */
/* Team: TU Delft */
/* Thanks guys - Bill Collins */
/* +1 - Douglas Watson */
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for production of Biofuels
Traditional methods for obtaining biofuels have relied mainly on the fermentation of agricultural crops. However, there are a number of problems with this approach: the reduction in land available for food production, relatively low levels of CO2 biofixation, and large biomass requirements. Our project aims to overcome these problems by utilizing E. coli for the production of biodiesel (C-12 fatty acids) and bioethanol. In the past there have been a number of examples of biofuel production in E. coli; however 30-40% of production cost is based on media costs. Our project will surmount these high production costs by engineering the cyanobacteria, Synechocystis PCC 6803, to secrete large quantities of glucose that will feed our biofuel-producing E. coli. Cyanobacteria and E. coli will be co-cultivated in an apparatus that allows for the mutual transfer of carbon to produce biofuels. Not only will this project provide an efficient means for producing biofuels without the need for a carbon source, but it will also create a novel cooperative system between bacterial species that may have further industrial implications.
