Team:Calgary/SandboxMain

From 2012.igem.org

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<h1 id="box1_title">Converting Naphthenic Acids to Biofuels</h1>
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<h1 class="boxtitle">Converting Naphthenic Acids to Biofuels</h1>
<p>Naphthenic acids (NAs) are a group of recalcitrant carboxylic acid-containing compounds which are byproducts of the bitumen extraction process in the northern Alberta oil sands. These toxic and corrosive compounds are part of the solid and liquid wastes deposited into large holding areas called tailings ponds, which pose a potential environmental and economic concern to Alberta and to other areas. The University of Calgary 2012 iGEM team aims to develop a collection of NA-sensing and degrading organisms for their detection and bioremediation.</p>
<p>Naphthenic acids (NAs) are a group of recalcitrant carboxylic acid-containing compounds which are byproducts of the bitumen extraction process in the northern Alberta oil sands. These toxic and corrosive compounds are part of the solid and liquid wastes deposited into large holding areas called tailings ponds, which pose a potential environmental and economic concern to Alberta and to other areas. The University of Calgary 2012 iGEM team aims to develop a collection of NA-sensing and degrading organisms for their detection and bioremediation.</p>
<p>Continuing from the <a href="https://2011.igem.org/Team:Calgary">2011 iGEM team’s work</a> on developing a NA biosensor, our team aims to better characterize a biological system for detection and measurement of NAs and other tailings pond compounds using an electrochemical output. New to this year, our major objective is to develop procedures for the conversion of NAs into useful hydrocarbons. As well, our group aims to develop biological and structural solutions to safety problems found in the scale-up process of synthetic biology industrial applications.</p>
<p>Continuing from the <a href="https://2011.igem.org/Team:Calgary">2011 iGEM team’s work</a> on developing a NA biosensor, our team aims to better characterize a biological system for detection and measurement of NAs and other tailings pond compounds using an electrochemical output. New to this year, our major objective is to develop procedures for the conversion of NAs into useful hydrocarbons. As well, our group aims to develop biological and structural solutions to safety problems found in the scale-up process of synthetic biology industrial applications.</p>
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<img src="https://static.igem.org/mediawiki/2012/3/31/UCalgary2012_FRED_Index_Box.png"></img>
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<h1>Meet FRED</h1>
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<p>FRED is our Functional, Robust Electrochemical Detector. He helps us detect NAs in tailings pond water by using <i>lacZ</i> to electrochemically measure NAs in a sample. FRED can even measure multiple different compounds simultaneously!
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</p>
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<p>
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Click here to learn more!
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</p>
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<img src="https://static.igem.org/mediawiki/2012/c/c3/UCalgary2012_OSCAR_Index_Box.png"></img>
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<h1>Meet OSCAR</h1>
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<p>OSCAR is our Optimized System for Carboxylic Acid Remediation. He helps us convert NAs in the tailings ponds into hydrocarbons that can be used for more fuel. OSCAR can purify hydrocarbons by removing sulfur and nitrogen groups from the NAs, too!
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</p>
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<p>
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Click here to learn more!
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</p>
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Revision as of 22:14, 2 August 2012

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Converting Naphthenic Acids to Biofuels

Naphthenic acids (NAs) are a group of recalcitrant carboxylic acid-containing compounds which are byproducts of the bitumen extraction process in the northern Alberta oil sands. These toxic and corrosive compounds are part of the solid and liquid wastes deposited into large holding areas called tailings ponds, which pose a potential environmental and economic concern to Alberta and to other areas. The University of Calgary 2012 iGEM team aims to develop a collection of NA-sensing and degrading organisms for their detection and bioremediation.

Continuing from the 2011 iGEM team’s work on developing a NA biosensor, our team aims to better characterize a biological system for detection and measurement of NAs and other tailings pond compounds using an electrochemical output. New to this year, our major objective is to develop procedures for the conversion of NAs into useful hydrocarbons. As well, our group aims to develop biological and structural solutions to safety problems found in the scale-up process of synthetic biology industrial applications.

Finally, we hope to develop a proof-of-concept bioreactor system that will be capable of converting these NAs into clean hydrocarbons suitable for industrial use. By providing both an environmental and economic benefit through the remediation of NAs, the 2012 University of Calgary iGEM team hopes to better facilitate biological methodologies for toxin remediation in Alberta, Canada, and beyond.

Meet FRED

FRED is our Functional, Robust Electrochemical Detector. He helps us detect NAs in tailings pond water by using lacZ to electrochemically measure NAs in a sample. FRED can even measure multiple different compounds simultaneously!

Click here to learn more!

Meet OSCAR

OSCAR is our Optimized System for Carboxylic Acid Remediation. He helps us convert NAs in the tailings ponds into hydrocarbons that can be used for more fuel. OSCAR can purify hydrocarbons by removing sulfur and nitrogen groups from the NAs, too!

Click here to learn more!