"
Team:Alberta
From 2011.igem.org
(Difference between revisions)
| Line 169: | Line 169: | ||
</div> | </div> | ||
<ol> | <ol> | ||
| - | <li>Development of a rapid, systematic method to construct genes for | + | <li>Development of a rapid, systematic method to construct genes for <i>N. crassa</i> |
| - | <li>Development and utilization of | + | <li>Development and utilization of <i> N. crassa </i>as a suitable synthetic biology chassis</li> |
<li> Creation of x parts for use in future synthetic biology projects </li> | <li> Creation of x parts for use in future synthetic biology projects </li> | ||
| - | <li> Design of a self-contained bioreactor apparatus and | + | <li> Design of a self-contained bioreactor apparatus and the determination of our fuel as an economically viable biodiesel </li> |
</ol> | </ol> | ||
Revision as of 23:12, 27 September 2011
WELCOME
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 a 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.
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.
LEARN
ACHIEVE
- Development of a rapid, systematic method to construct genes for N. crassa
- Development and utilization of N. crassa as a suitable synthetic biology chassis
- Creation of x parts for use in future synthetic biology projects
- Design of a self-contained bioreactor apparatus and the determination of our fuel as an economically viable biodiesel
INTERACT
SPONSORS
