Team:Alberta

From 2011.igem.org

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<div id=section-title>WELCOME</div>
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<div id=section-title>STEVE WUZ 'ERE</div>
<p>Team Alberta’s aim is to aide in the solution of a global problem, the fuel crisis, by
<p>Team Alberta’s aim is to aide in the solution of a global problem, the fuel crisis, by
thinking locally. In Alberta, our main industrial practices lay within the oil and gas
thinking locally. In Alberta, our main industrial practices lay within the oil and gas

Revision as of 22:55, 18 September 2011

THE PLAN

We shall go on to the end, we shall fight in France, we shall fight on the seas and oceans, we shall fight with growing confidence and growing strength in the air, we shall defend our Island, whatever the cost may be, we shall fight on the beaches, we shall fight on the landing grounds, we shall fight in the fields and in the streets, we shall fight in the hills; we shall never surrender.


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STEVE WUZ 'ERE

Team Alberta’s aim is to aide in the solution of a global problem, the fuel crisis, by thinking locally. In Alberta, our main industrial practices lay within the oil and gas sector; however, we also have thriving agricultural and forestry-based industry. The industrial processes associated with these industries produce biomass by-products of little economic value. The aim of our project is to convert these by-products into a useful and economically viable fuel, biodiesel.


This is not a new idea. Previous research has been largely focused on engineering organisms to metabolize cellulose, a highly inefficient approach with very little yield. Here is where our approach differs. Why engineer a new organism to perform a function nature has perfected in another species? Why not just make this organism even better?


We have selected the filamentous, ascomycete fungus Neurospora crassa, which is a natural cellulose metabolizer, with the aim of creating an organism to efficiently make biodiesel. Our fuel will be made by up-regulating fatty acid synthesis and inhibiting beta-oxidation, effectively causing the over-production of fatty acids within N. Crassa. From here we will efficiently esterify the fatty acids into fatty acid methyl esters (FAMEs), producing a viable fuel.


Take our Wiki Tour or Proceed to our Project Overview
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