Team:OLS Canmore AB CA/Project.html

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                           <li><a href="#">Project</a>
                           <li><a href="#">Project</a>
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                                  <li><a>&nbsp;</a></li>
 
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                                   <li><a href="https://2014hs.igem.org/Team:OLS_Canmore_AB_CA/Project.html">Description</a></li>
                                   <li><a href="https://2014hs.igem.org/Team:OLS_Canmore_AB_CA/Project.html">Description</a></li>
                                   <li><a href="https://2014hs.igem.org/Team:OLS_Canmore_AB_CA/Timeline">Timeline</a></li>
                                   <li><a href="https://2014hs.igem.org/Team:OLS_Canmore_AB_CA/Timeline">Timeline</a></li>
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                                  <li><a href="https://2014hs.igem.org/Team:OLS_Canmore_AB_CA/Lab_Successes.html">Lab Successes</a></li>
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     <td align="left" colspan="2">The objective for our school&rsquo;s first iGEM project is to create a heat activated olfactory biosensor. When exposed to temperatures of 42 degrees Celsius or higher, our biosensor will emit a wintergreen smell. &nbsp;The experience from this project will also serve as the building block for our long-term vision.</td>
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     <td align="left" colspan="2"> The objective for our school’s first iGEM project is to create a heat activated olfactory biosensor. Using <em>E.coli</em> NEB10-beta as a chassis, when exposed to temperatures of 37°C to 42°C, our biosensor will emit a wintergreen smell. The wintergreen smell will be quite faint at 37°C and strong at 42°C.  Using salicylic acid as a fuel the E.coli will produce an enzyme that catalyzes a reaction—a product of this reaction is methyl salicylate, which smells like wintergreen.   </td>
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     <td><img src="https://static.igem.org/mediawiki/2014hs/0/01/OLS_diagram-1.png" width="470" height="310" alt=""/></td>
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     <td><img src="https://static.igem.org/mediawiki/2014hs/0/01/OLS_diagram-1.png" width="470" height="310" alt="Part K098995"/></td>
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     <td><img src="https://static.igem.org/mediawiki/2014hs/5/54/OLS_diagram-2.png" width="470" height="310" alt=""/></td>
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     <td><img src="https://static.igem.org/mediawiki/2014hs/5/54/OLS_diagram-2.png" width="470" height="310" alt="Part J45119"/></td>
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         <td align="left">To create this biosensor, we will place a wintergreen odor enzyme generator (BBa_J45119) downstream from a heat sensitive promoter (BBa_KO98995). The wintergreen odor generator will only work when salicylic acid is present. We believe our project could be used to detect severe fevers, and would also be used to educate our community about the benefits of genetic engineering. </td>
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         <td align="left"><p> To create this biosensor, we will place a wintergreen odour enzyme generator (BBa_J45119) downstream from a heat sensitive promoter (BBa_KO98995). Once the two biobricks have been engineered into a single plasmid, the plasmid can than be inserted into competent <em>E.coli</em> NEB10-beta. </p>
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<p>An example of an application for this project is the use of this biosensor as a promoter when using bacteria to produce endothermic reactions to prevent overheating.  The promoter would enable all parts downstream from it to function, and the wintergreen smell would indicate that the promoter is in fact allowing for the functioning of other biobricks.  A similar use would be the use of our project in a self-regulating temperature-dependant system similar to a thermostat.</p>
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   <figure><img src="https://static.igem.org/mediawiki/2014hs/7/71/OLS_diagram-3.png" width="350" height="471" alt=""/>
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   <figure><img src="https://static.igem.org/mediawiki/2014hs/7/71/OLS_diagram-3.png" width="350" height="471" alt="Project Plan"/>
     <figcaption>Project Plan</figcaption>
     <figcaption>Project Plan</figcaption>
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     <td align="left">Our team&rsquo;s long-term project consists of creating a thermal-wavelength biosensor. The project described in the paragraphs above will be our goal for the semester, and will help us gain the skills and knowledge to pursue more complex projects—such as a thermal-wavelength biosensor. To create this biosensor, we will string together BBa_K909001, BBa_K098995, BBa_K909003, BBa_R0082, and BBa_J45119, in that order. This will also emit a wintergreen odor, but will require heat as well as to be in the presence of a specific wavelength of light. </td>
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     <td align="left"> <p>A considered long-term project related to our first project is creating a thermal-wavelength biosensor. This endeavour—detailed in the image below—would require the input of both heat and red or blue wavelengths.</p>
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<p> With the first project providing team members with the knowledge and skills to modify DNA, we could then continue on the path of using bacteria in increasingly complex circuits to more effectively sense and respond to the environment.</p>  </td>
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   <figure><img src="https://static.igem.org/mediawiki/2014hs/4/40/OLS_diagram-4.png" width="400" height="210" alt=""/>
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   <figure><img src="https://static.igem.org/mediawiki/2014hs/4/40/OLS_diagram-4.png" width="400" height="210" alt="Long term Project"/>
     <figcaption>Long-term Project</figcaption>
     <figcaption>Long-term Project</figcaption>
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Latest revision as of 19:34, 20 June 2014

Safety

 

Our Project

 

The objective for our school’s first iGEM project is to create a heat activated olfactory biosensor. Using E.coli NEB10-beta as a chassis, when exposed to temperatures of 37°C to 42°C, our biosensor will emit a wintergreen smell. The wintergreen smell will be quite faint at 37°C and strong at 42°C. Using salicylic acid as a fuel the E.coli will produce an enzyme that catalyzes a reaction—a product of this reaction is methyl salicylate, which smells like wintergreen.
Part K098995 Part J45119

Parts BBa_K098995/BBa_J45119

To create this biosensor, we will place a wintergreen odour enzyme generator (BBa_J45119) downstream from a heat sensitive promoter (BBa_KO98995). Once the two biobricks have been engineered into a single plasmid, the plasmid can than be inserted into competent E.coli NEB10-beta.

An example of an application for this project is the use of this biosensor as a promoter when using bacteria to produce endothermic reactions to prevent overheating. The promoter would enable all parts downstream from it to function, and the wintergreen smell would indicate that the promoter is in fact allowing for the functioning of other biobricks. A similar use would be the use of our project in a self-regulating temperature-dependant system similar to a thermostat.

 

Project Plan
Project Plan

A considered long-term project related to our first project is creating a thermal-wavelength biosensor. This endeavour—detailed in the image below—would require the input of both heat and red or blue wavelengths.

With the first project providing team members with the knowledge and skills to modify DNA, we could then continue on the path of using bacteria in increasingly complex circuits to more effectively sense and respond to the environment.

 

Long term Project
Long-term Project

 

2014 Our Lady of the Snows iGEM