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Our team has created an exploratory model of a metabolic pathway for the enzymatic degradation of TCDD. This model served as the foundation of our project design and the backbone for our lab work. We completed in depth research on enzymes families relevant to TCDD degradation, narrowing down contenders to the enzymes we would eventually use in the lab. While building this model, we utilized a multitude of tools including, but not limited to biochemical analysis, phylogenetic comparison and pathway mapping. Through these tools, we compiled a comprehensive list of enzymes, is strongly rooted in prior academic studies. <br /><br /> | Our team has created an exploratory model of a metabolic pathway for the enzymatic degradation of TCDD. This model served as the foundation of our project design and the backbone for our lab work. We completed in depth research on enzymes families relevant to TCDD degradation, narrowing down contenders to the enzymes we would eventually use in the lab. While building this model, we utilized a multitude of tools including, but not limited to biochemical analysis, phylogenetic comparison and pathway mapping. Through these tools, we compiled a comprehensive list of enzymes, is strongly rooted in prior academic studies. <br /><br /> | ||
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− | + | The final pathway we tested in the lab, consists of dehalogenase, dioxygenase and hydrolase enzymes. Additionally, Cyp 450 and Lignin Peroxidase enzymes were researched, enzymes have been privously found to breakdown TCDD. Despite that neither of these enzymes catalyze a specific step in the final engineered pathway, both are excellent candidates for TCDD Degradation. | |
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Revision as of 19:21, 13 October 2018
Model
Our team has created an exploratory model of a metabolic pathway for the enzymatic degradation of TCDD. This model served as the foundation of our project design and the backbone for our lab work. We completed in depth research on enzymes families relevant to TCDD degradation, narrowing down contenders to the enzymes we would eventually use in the lab. While building this model, we utilized a multitude of tools including, but not limited to biochemical analysis, phylogenetic comparison and pathway mapping. Through these tools, we compiled a comprehensive list of enzymes, is strongly rooted in prior academic studies.
The final pathway we tested in the lab, consists of dehalogenase, dioxygenase and hydrolase enzymes. Additionally, Cyp 450 and Lignin Peroxidase enzymes were researched, enzymes have been privously found to breakdown TCDD. Despite that neither of these enzymes catalyze a specific step in the final engineered pathway, both are excellent candidates for TCDD Degradation.