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Team:Calgary/Project/OSCAR/Denitrogenation
From 2012.igem.org
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<h3>Why focus on nitrogen bioremediation?</h3> | <h3>Why focus on nitrogen bioremediation?</h3> | ||
| - | <p>The removal of nitrogen heterocycles from the petroleum tailings ponds is important for both of the main goals of the OSCAR project. Since nitrogen containing compounds lower the quality and stability of fuel (Katzer & Sivasubramanian, 1979) , their presence would be detrimental to the usefulness of the hydrocarbons OSCAR could create. The presence of nitrogen compounds in our products also hinders our environmental goals as they have been shown to undergo radical changes, yielding highly genotoxic byproducts (Xu et al). </p> | + | |
| + | <p>The removal of nitrogen heterocycles from the petroleum tailings ponds is important for both of the main goals of the OSCAR project. Since nitrogen containing compounds lower the quality and stability of fuel (Katzer & Sivasubramanian, 1979) , their presence would be detrimental to the usefulness of the hydrocarbons OSCAR could create. The presence of nitrogen compounds in our products also hinders our environmental goals as they have been shown to undergo radical changes, yielding highly genotoxic byproducts (Xu et al). The combination of these two factors makes the removal of nitrogen very important to the success of OSCAR. </p> | ||
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| + | <h3>Our model compound</h3> | ||
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| + | <p>Carbazole was chosen as the model compound to study nitrogen containing heterocycles as it accounts for about 70% of nitrogen by mass in petroleum tailings ponds, as well as the fact that it is considered one of the more difficult to degrade (Morales). A pathway that is capable of degrading carbazole could also have the ability to degrade many other types of nitrogen containing compounds found in the tailings ponds. Although the genes in our pathway are mostly designed for carbazole degradation, 3 other compounds have also been chosen to be tested on due to their unique properties. Pyrollidine was chosen because it is a similar, yet less complex heterocycle with nitrogen embedded in the ring. Cyclohexylamine was chosen to test the system's ability to degrade compounds that have the nitrogen as a substituent of a ring. Finally, 4-PBAH was chosen as it is a complex naphthenic acid that can serve as a model containing two of OSCAR's target compounds. </p> | ||
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Denitrogenation
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Why focus on nitrogen bioremediation?
The removal of nitrogen heterocycles from the petroleum tailings ponds is important for both of the main goals of the OSCAR project. Since nitrogen containing compounds lower the quality and stability of fuel (Katzer & Sivasubramanian, 1979) , their presence would be detrimental to the usefulness of the hydrocarbons OSCAR could create. The presence of nitrogen compounds in our products also hinders our environmental goals as they have been shown to undergo radical changes, yielding highly genotoxic byproducts (Xu et al). The combination of these two factors makes the removal of nitrogen very important to the success of OSCAR.
Our model compound
Carbazole was chosen as the model compound to study nitrogen containing heterocycles as it accounts for about 70% of nitrogen by mass in petroleum tailings ponds, as well as the fact that it is considered one of the more difficult to degrade (Morales). A pathway that is capable of degrading carbazole could also have the ability to degrade many other types of nitrogen containing compounds found in the tailings ponds. Although the genes in our pathway are mostly designed for carbazole degradation, 3 other compounds have also been chosen to be tested on due to their unique properties. Pyrollidine was chosen because it is a similar, yet less complex heterocycle with nitrogen embedded in the ring. Cyclohexylamine was chosen to test the system's ability to degrade compounds that have the nitrogen as a substituent of a ring. Finally, 4-PBAH was chosen as it is a complex naphthenic acid that can serve as a model containing two of OSCAR's target compounds.
