Difference between revisions of "Team:LASATX"
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Each year, thousands of people receive injury from unintentional carbon monoxide poisoning. As carbon monoxide is a toxic, odorless gas, commercially available CO detectors change color and sound alarms in the presence of a dangerous accumulation. However, this warning mechanism is useless for the blind and deaf. Our project aims to create a carbon monoxide sensor that can give a fragrance to this odorless gas. | Each year, thousands of people receive injury from unintentional carbon monoxide poisoning. As carbon monoxide is a toxic, odorless gas, commercially available CO detectors change color and sound alarms in the presence of a dangerous accumulation. However, this warning mechanism is useless for the blind and deaf. Our project aims to create a carbon monoxide sensor that can give a fragrance to this odorless gas. | ||
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We introduced a carbon monoxide-sensing mechanism and a wintergreen fragrance pathway into E. coli so that in the presence of carbon monoxide, our engineered bacteria will emit a wintergreen smell. With a CO-induced Wintergreen pathway, we hope to provide working carbon monoxide sensor useful for the general public, but especially for the disabled for which regular CO alarms are not a viable option. | We introduced a carbon monoxide-sensing mechanism and a wintergreen fragrance pathway into E. coli so that in the presence of carbon monoxide, our engineered bacteria will emit a wintergreen smell. With a CO-induced Wintergreen pathway, we hope to provide working carbon monoxide sensor useful for the general public, but especially for the disabled for which regular CO alarms are not a viable option. | ||
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Revision as of 20:27, 18 June 2015
Liberal Arts and Science Academy HS iGEM team
Abstract
Each year, thousands of people receive injury from unintentional carbon monoxide poisoning. As carbon monoxide is a toxic, odorless gas, commercially available CO detectors change color and sound alarms in the presence of a dangerous accumulation. However, this warning mechanism is useless for the blind and deaf. Our project aims to create a carbon monoxide sensor that can give a fragrance to this odorless gas.
We introduced a carbon monoxide-sensing mechanism and a wintergreen fragrance pathway into E. coli so that in the presence of carbon monoxide, our engineered bacteria will emit a wintergreen smell. With a CO-induced Wintergreen pathway, we hope to provide working carbon monoxide sensor useful for the general public, but especially for the disabled for which regular CO alarms are not a viable option.