Team:USP-Brazil
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<h2>Project description</h2> | <h2>Project description</h2> | ||
<p style="text-align: left;">Our product is a bioengineered sensor, which will be able to detect levels of methanol above 2% in common alcoholic drinks. This will allow government to make high-throughput screening of ethanol drinks tainted will methanol. The device will be used as an initial low cost and portable test. | <p style="text-align: left;">Our product is a bioengineered sensor, which will be able to detect levels of methanol above 2% in common alcoholic drinks. This will allow government to make high-throughput screening of ethanol drinks tainted will methanol. The device will be used as an initial low cost and portable test. | ||
- | The construction is based on the pAOX promoter, which is activated by methanol and repressed by ethanol. Several parts of the device must be tuned for proper function in Pichia pastoris; pAOX promoter, red fluorescent protein (RFP), Mxr1p transcriptional factor and FLD promoter.</p> | + | The construction is based on the pAOX promoter, which is activated by methanol and repressed by ethanol. Several parts of the device must be tuned for proper function in <i>Pichia pastoris</i>; pAOX promoter, red fluorescent protein (RFP), Mxr1p transcriptional factor and FLD promoter.</p> |
- | <p style="text-align: left;">Since we aim to develop a product ready for the consumer to use, we plan to develop a plastic container for the | + | <p style="text-align: left;">Since we aim to develop a product ready for the consumer to use, we plan to develop a 3D printed plastic container for the lyophilised yeast that will help perform the test and will also contain the yeast. After use, the container will be able to apply bleach to eliminate the yeast.</p> |
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Revision as of 11:50, 15 September 2013
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Project description
Our product is a bioengineered sensor, which will be able to detect levels of methanol above 2% in common alcoholic drinks. This will allow government to make high-throughput screening of ethanol drinks tainted will methanol. The device will be used as an initial low cost and portable test. The construction is based on the pAOX promoter, which is activated by methanol and repressed by ethanol. Several parts of the device must be tuned for proper function in Pichia pastoris; pAOX promoter, red fluorescent protein (RFP), Mxr1p transcriptional factor and FLD promoter.
Since we aim to develop a product ready for the consumer to use, we plan to develop a 3D printed plastic container for the lyophilised yeast that will help perform the test and will also contain the yeast. After use, the container will be able to apply bleach to eliminate the yeast.