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Team:Calgary
From 2011.igem.org
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<p>1. Describe your project on the front page of your team's wiki or on another page that is easily reached.</p> | <p>1. Describe your project on the front page of your team's wiki or on another page that is easily reached.</p> | ||
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| + | <p>The University of Calgary iGEM team aims to build a biosensor for naphthenic acids. Naphthenic acids are a family of organic acids that are toxic to terrestrial and aquatic wildlife, and are waste products of the bitumen extraction process. Naphthenic acids are stored in on-site settling ponds called tailing ponds; not only do they poison the environment, but they also contribute to the corrosion of refinery equipment, which directly increases maintenance and replacement costs. Currently, sophisticated and expensive procedures such as mass spectroscopy and gas chromatography are needed to identify and assess the concentration of naphthenic acids in solution. A bacterial sensor, if developed, could greatly improve the cost- and time-efficiency of naphthenic acid detection, and facilitate a workable approach for remediation.</p> | ||
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| + | <p> Our team consists of students in the Engineering, Bioinformatics, Biomedical, and Biological Science Departments. | ||
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<p>2. The description only needs to be a couple of paragraphs long</p> | <p>2. The description only needs to be a couple of paragraphs long</p> | ||
Revision as of 16:29, 6 July 2011
Description requirements:
1. Describe your project on the front page of your team's wiki or on another page that is easily reached.
The University of Calgary iGEM team aims to build a biosensor for naphthenic acids. Naphthenic acids are a family of organic acids that are toxic to terrestrial and aquatic wildlife, and are waste products of the bitumen extraction process. Naphthenic acids are stored in on-site settling ponds called tailing ponds; not only do they poison the environment, but they also contribute to the corrosion of refinery equipment, which directly increases maintenance and replacement costs. Currently, sophisticated and expensive procedures such as mass spectroscopy and gas chromatography are needed to identify and assess the concentration of naphthenic acids in solution. A bacterial sensor, if developed, could greatly improve the cost- and time-efficiency of naphthenic acid detection, and facilitate a workable approach for remediation.
Our team consists of students in the Engineering, Bioinformatics, Biomedical, and Biological Science Departments.
2. The description only needs to be a couple of paragraphs long
