Team:Calgary/Project/HumanPractices/Killswitch
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<img src="https://static.igem.org/mediawiki/2012/0/07/UCalgary2012_FRED_and_OSCAR_Killswitch_Low-Res.png" style="float: right; padding: 10px;"></img> | <img src="https://static.igem.org/mediawiki/2012/0/07/UCalgary2012_FRED_and_OSCAR_Killswitch_Low-Res.png" style="float: right; padding: 10px;"></img> | ||
- | <p> The OSCAR component of our project aims to remediate toxins in the oil sands tailings ponds using synthetic bacteria. Despite our belief that the metabolic burden of this system on our bacteria would not allow them to outcompete any native organisms, as we detail in our interviews page, our dialogue with experts really emphasized the need to design such a system so as to minimize any escape of our bacteria regardless. As such, we designed a closed <a href=https://2012.igem.org/Team:Calgary/Project/FRED/Prototype>biosensor</a> and a closed <a href=https://2012.igem.org/Team:Calgary/Project/OSCAR/Bioreactor>bioreactor</a> which incorporated built-in structural <a href=https://2012.igem.org/Team:Calgary/Project/HumanPractices/Design> design</a> safety mechanisms. In order to implement one more level of control, which industry felt was needed, we wanted an additional genetic-based containment mechanism to kill our bacteria upon escape from our system, thereby lessening the possibility of OSCAR spreading beyond the bioreactor or horizontally transferring genes to other organisms. We implemented novel riobo-killswitch parts. These contain riboswitch regulatory elements and exo/endonuclease kill genes.</p> | + | <p> The OSCAR component of our project aims to remediate toxins in the oil sands tailings ponds using synthetic bacteria. Despite our belief that the metabolic burden of this system on our bacteria would not allow them to outcompete any native organisms, as we detail in our <a href="https://2012.igem.org/Team:Calgary/Project/HumanPractices/Interviews">interviews</a> page, our dialogue with experts really emphasized the need to design such a system so as to minimize any escape of our bacteria regardless. As such, we designed a closed <a href=https://2012.igem.org/Team:Calgary/Project/FRED/Prototype>biosensor</a> and a closed <a href=https://2012.igem.org/Team:Calgary/Project/OSCAR/Bioreactor>bioreactor</a> which incorporated built-in structural <a href=https://2012.igem.org/Team:Calgary/Project/HumanPractices/Design> design</a> safety mechanisms. In order to implement one more level of control, which industry felt was needed, we wanted an additional genetic-based containment mechanism to kill our bacteria upon escape from our system, thereby lessening the possibility of OSCAR spreading beyond the bioreactor or horizontally transferring genes to other organisms. We implemented novel riobo-killswitch parts. These contain riboswitch regulatory elements and exo/endonuclease kill genes.</p> |
<h2>Click on either element to learn more about it!</h2> | <h2>Click on either element to learn more about it!</h2> |
Revision as of 03:18, 4 October 2012
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A Killswitch for Increased Security
The OSCAR component of our project aims to remediate toxins in the oil sands tailings ponds using synthetic bacteria. Despite our belief that the metabolic burden of this system on our bacteria would not allow them to outcompete any native organisms, as we detail in our interviews page, our dialogue with experts really emphasized the need to design such a system so as to minimize any escape of our bacteria regardless. As such, we designed a closed biosensor and a closed bioreactor which incorporated built-in structural design safety mechanisms. In order to implement one more level of control, which industry felt was needed, we wanted an additional genetic-based containment mechanism to kill our bacteria upon escape from our system, thereby lessening the possibility of OSCAR spreading beyond the bioreactor or horizontally transferring genes to other organisms. We implemented novel riobo-killswitch parts. These contain riboswitch regulatory elements and exo/endonuclease kill genes.