Team:Wisconsin/Project

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|Fuel consumption has come to the forefront as an important political and biological issue that has lead to innovative pursuits of renewable fuel as well as the controversial exploitation of natural resources. Currently ethanol is the commercial biofuel of choice; however, currently production and distillation of ethanol is inefficient. With this problem in mind, iGEM Wisconsin has looked for alternative ways to make not only ethanol, but other biofuels through synthetic biology. We've designed the following two projects using ''E. coli'' to produce biofuels in innovative ways:
|Fuel consumption has come to the forefront as an important political and biological issue that has lead to innovative pursuits of renewable fuel as well as the controversial exploitation of natural resources. Currently ethanol is the commercial biofuel of choice; however, currently production and distillation of ethanol is inefficient. With this problem in mind, iGEM Wisconsin has looked for alternative ways to make not only ethanol, but other biofuels through synthetic biology. We've designed the following two projects using ''E. coli'' to produce biofuels in innovative ways:
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[[Image:Pet28map.JPG|250px|thumb|Pet28 vector map]]
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[[Image:Pet28map.png|250px|thumb|Pet28 vector map]]
One project focuses on using ''E. coli'' to produce sorbitol, a sugar alcohol, in large quantities for eventual commercial scale catalytic conversion to hydrocarbons. Along with producing sorbitol, we've modeled alterations in  ''E. coli'' to make sorbitol production from a glycerol carbon source possible. Our aim is to modify a cell that will utilize glycerol, a byproduct from biodiesel production, and effectively create sorbitol.  
One project focuses on using ''E. coli'' to produce sorbitol, a sugar alcohol, in large quantities for eventual commercial scale catalytic conversion to hydrocarbons. Along with producing sorbitol, we've modeled alterations in  ''E. coli'' to make sorbitol production from a glycerol carbon source possible. Our aim is to modify a cell that will utilize glycerol, a byproduct from biodiesel production, and effectively create sorbitol.  

Revision as of 16:20, 5 August 2008

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Overall Project
Fuel consumption has come to the forefront as an important political and biological issue that has lead to innovative pursuits of renewable fuel as well as the controversial exploitation of natural resources. Currently ethanol is the commercial biofuel of choice; however, currently production and distillation of ethanol is inefficient. With this problem in mind, iGEM Wisconsin has looked for alternative ways to make not only ethanol, but other biofuels through synthetic biology. We've designed the following two projects using E. coli to produce biofuels in innovative ways:
Pet28 vector map

One project focuses on using E. coli to produce sorbitol, a sugar alcohol, in large quantities for eventual commercial scale catalytic conversion to hydrocarbons. Along with producing sorbitol, we've modeled alterations in E. coli to make sorbitol production from a glycerol carbon source possible. Our aim is to modify a cell that will utilize glycerol, a byproduct from biodiesel production, and effectively create sorbitol.

In the second project we will be attempting to use E. coli to break down lignin from plant matter into usable biofuels. We are currently aiming to insert fungal genes coding for lignin peroxidase into E. coli. Lignin breakdown will be made possible through the transport of lignin peroxidase out of the cell. To achieve this, protein transporters will be added to the cell.

PFK Knockout
TPI Knockout
SRL Operon

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Sorbitol Biosynthesis