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Team:HKU-Hong Kong
From 2010.igem.org
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|Bacteria are genetically engineered to perform various functions.Prospective functions include biodegradation of crude oil and killing of cancer cells. Yet, undesired tasks might be performed by the baterium itself as well. The idea of a "bio-safety" net would serve the purpose. | |Bacteria are genetically engineered to perform various functions.Prospective functions include biodegradation of crude oil and killing of cancer cells. Yet, undesired tasks might be performed by the baterium itself as well. The idea of a "bio-safety" net would serve the purpose. | ||
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| - | |Mechanism and conditions for cell destruction were discussed. We found the biopart BBa_k112808 from the UC Berkeley team, i.e. an enterobacteria phage T4 Lysis Device with no promotor useful in attaining cell destruction under arbitary and specific conditions. | + | |Mechanism and conditions for cell destruction were discussed. We found the biopart BBa_k112808 from the UC Berkeley team, (i.e. an enterobacteria phage T4 Lysis Device with no promotor)useful in attaining cell destruction under arbitary and specific conditions. |
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| + | |Matching of different promotors, corresponding to different environmental factors with the expression control of the lysis device, gives possibilities in designing biobricks that are available to a "bio-safety net" to virtually all genetically engineered bacteria. | ||
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Revision as of 15:46, 18 July 2010
Welcome to the wiki of the HKU igem team 2010
The title of our project this year is "The Bio-Safety Net"
We are from the University of Hong Kong. Our team was formed in early April with 11 members from different areas of studies.
The "Bio-Safety Net"
Our project
| Our team picked out the idea of engineering a mechanism that can act as a safety net to prevent genetically modified bacteria from performing undesired tasks in wrong environments. | |
| Bacteria are genetically engineered to perform various functions.Prospective functions include biodegradation of crude oil and killing of cancer cells. Yet, undesired tasks might be performed by the baterium itself as well. The idea of a "bio-safety" net would serve the purpose. | |
| Mechanism and conditions for cell destruction were discussed. We found the biopart BBa_k112808 from the UC Berkeley team, (i.e. an enterobacteria phage T4 Lysis Device with no promotor)useful in attaining cell destruction under arbitary and specific conditions. | |
| Matching of different promotors, corresponding to different environmental factors with the expression control of the lysis device, gives possibilities in designing biobricks that are available to a "bio-safety net" to virtually all genetically engineered bacteria. |
| Home | Team | Official Team Profile | Project | Parts Submitted to the Registry | Modeling | Notebook | Safety |
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