Team:SMTexas/Implementation

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<header><h2>The Implementation</h2></header><br></section>
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<header><h2>The Implementation</h2></header></section>
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While the development of mechanical and electronic noses have been in progress for many decades, we propose that a circuit of genetically-modified E. coli used in conjunction with a mechanical contraption has the potential to be used a preliminary diagnostic for lung cancer. We propose a device similar to a breathalyzer that utilizes a cylindrical container with our genetically engineered E. coli systems at the bottom of the aluminum shell. To prevent the possibility of contanimants, an adapter would attach to the top of the cylindrical shell for the user to breath into. The user would fasten the adapter onto the shell and exhale as much as possible. Upon exhalation, the user would immediately detach the adapter to secure the sytem designed to automatically shut off after the removal of the adapter and the shell. The genetic systems would be underlain with a sensitive paper that would be dyed upon the expression of the fluorescent proteins. We would utilize Cambridge 2009 iGEM Team’s E. Chromi color generator to verify and differentiate the identities of the VOCs present in the user’s breath sample. Currently under development by our team, this device has the potentialt to be an inexpensive, sensitive, and noninvasive solution to early screening of lung cancer.
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While the development of mechanical and electronic noses have been in progress for many decades, we propose that a circuit of genetically-modified E. coli used in conjunction with a mechanical contraption has the potential to be used a preliminary diagnostic for lung cancer. We propose a device similar to a breathalyzer that utilizes a cylindrical container with our genetically engineered E. coli systems at the bottom of the aluminum shell. To prevent the possibility of contaminants, an adapter would attach to the top of the cylindrical shell for the user to breath into. The user would fasten the adapter onto the shell and exhale as much as possible. Upon exhalation, the user would immediately detach the adapter to secure the system designed to automatically shut off after the removal of the adapter and the shell. The genetic systems would be underlain with a sensitive paper that would be dyed upon the expression of the fluorescent proteins. We would utilize Cambridge 2009 iGEM Team’s E. Chromi color generator to verify and differentiate the identities of the VOCs present in the user’s breath sample. Currently under development by our team, this device has the potential to be an inexpensive, sensitive, and noninvasive solution to early screening of lung cancer.
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<img src="https://static.igem.org/mediawiki/2014hs/c/cd/Threepartsbreathing.png">
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<img src="https://static.igem.org/mediawiki/2014hs/c/c1/Breathingpart.png">
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<img src="https://static.igem.org/mediawiki/2014hs/e/e3/Screen_Shot_2014-06-20_at_10.07.44_PM.png">
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Latest revision as of 03:53, 21 June 2014