Team:UTP-Panama/Home
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== ABSTRACT == | == ABSTRACT == | ||
- | To develop flexible and better sensors for environmental, agricultural and engineering applications are the aims of the UTP-Panama Team “''SynBio Engineering Tool Kit''”. In this way we work with Nitrate Biosensor (PyeaR - GFP composite) developed by Team BCCS-Bristol 2010, which expresses fluorescent signals upon nutrient detection, producing a high-resolution map of arable land. To achieve this goal we use the collateral effect of the AOX enzyme (Alternative oxidase) mainly designed to generate heat in response to a cold-shock, using the hybB promoter. This effect increases the bacteria growth at temperatures below 20°C. | + | <div align="justify"> To develop flexible and better sensors for environmental, agricultural and engineering applications are the aims of the UTP-Panama Team “''SynBio Engineering Tool Kit''”. In this way we work with Nitrate Biosensor (PyeaR - GFP composite) developed by Team BCCS-Bristol 2010, which expresses fluorescent signals upon nutrient detection, producing a high-resolution map of arable land. To achieve this goal we use the collateral effect of the AOX enzyme (Alternative oxidase) mainly designed to generate heat in response to a cold-shock, using the hybB promoter. This effect increases the bacteria growth at temperatures below 20°C. |
- | Finally we design a prototype device with a better cold shock promoter (CspA promoter) developed by UNAM-CINVESTAV Team in 2010, in order to give our E. coli a “Intelligent Coat", which means that not to only survive a cold-shock but to also still been able to keep up with his duties due to improve their expression mechanism at low temperature. | + | Finally we design a prototype device with a better cold shock promoter (CspA promoter) developed by UNAM-CINVESTAV Team in 2010, in order to give our E. coli a “Intelligent Coat", which means that not to only survive a cold-shock but to also still been able to keep up with his duties due to improve their expression mechanism at low temperature. </div> |
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+ | == Our University: == | ||
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+ | ====Universidad Tecnologica de Panamá==== | ||
+ | Web Site: http://www.utp.ac.pa/ | ||
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+ | <div align="center">'''''About This Wiki Visibility'':''' <br> | ||
+ | If you have problems with the page or words size, please use '''Control+''' or '''Control'''- , to adjust to your preference. </div> |
Latest revision as of 20:02, 23 November 2011
Home |
THERMOGENIC RESPONSE NUTRIENT BIOSENSOR (THE RENBO)ABSTRACT To develop flexible and better sensors for environmental, agricultural and engineering applications are the aims of the UTP-Panama Team “SynBio Engineering Tool Kit”. In this way we work with Nitrate Biosensor (PyeaR - GFP composite) developed by Team BCCS-Bristol 2010, which expresses fluorescent signals upon nutrient detection, producing a high-resolution map of arable land. To achieve this goal we use the collateral effect of the AOX enzyme (Alternative oxidase) mainly designed to generate heat in response to a cold-shock, using the hybB promoter. This effect increases the bacteria growth at temperatures below 20°C.
Finally we design a prototype device with a better cold shock promoter (CspA promoter) developed by UNAM-CINVESTAV Team in 2010, in order to give our E. coli a “Intelligent Coat", which means that not to only survive a cold-shock but to also still been able to keep up with his duties due to improve their expression mechanism at low temperature.
Our University:Universidad Tecnologica de PanamáWeb Site: http://www.utp.ac.pa/ About This Wiki Visibility:
If you have problems with the page or words size, please use Control+ or Control- , to adjust to your preference. |