Difference between revisions of "Part:BBa K672000"
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| − | == '''THERMOGENIC RESPONSE NUTRIENT BIOSENSOR | + | == '''THERMOGENIC RESPONSE NUTRIENT BIOSENSOR''' == |
The original BioBrick that senses the levels of nitrates in soil developed by Bristol iGEM Team 2010, was designed to operate at room temperatures, especially for 37 ° C using the PyeaR BioBricks promoter. | The original BioBrick that senses the levels of nitrates in soil developed by Bristol iGEM Team 2010, was designed to operate at room temperatures, especially for 37 ° C using the PyeaR BioBricks promoter. | ||
Our composite seeks to extend the range of optimal functioning of the sensor developed by Bristol at temperatures below 20 ° C, as many of the crops in highlands (coffee and fruits), are in this range. To resolve this problem, we found that the use of the AOX enzyme (Alternative oxidase) gene responsible for thermogenesis in the sacred lotus, mainly used in Synthetic Biology to generate an increase in periplasmic temperature, produced an interesting increase in the growth and downsizing bacterial densities in temperature. This part uses a HybB promoter for "cold shock". | Our composite seeks to extend the range of optimal functioning of the sensor developed by Bristol at temperatures below 20 ° C, as many of the crops in highlands (coffee and fruits), are in this range. To resolve this problem, we found that the use of the AOX enzyme (Alternative oxidase) gene responsible for thermogenesis in the sacred lotus, mainly used in Synthetic Biology to generate an increase in periplasmic temperature, produced an interesting increase in the growth and downsizing bacterial densities in temperature. This part uses a HybB promoter for "cold shock". | ||
| − | Our new "device" combines the two parts, the AOX periplasmatic heat generator (BBa_K410000) and the Nitrates biosensor (BBa_K381001), to create That We Call The Renbo, to ensure that our meters Nutrient operate at low temperatures. | + | Our new "device" combines the two parts, the AOX periplasmatic heat generator (BBa_K410000) and the Nitrates biosensor (BBa_K381001), to create That We Call The Renbo, to ensure that our meters Nutrient operate at low temperatures. |
== '''SubParts:''' == | == '''SubParts:''' == | ||
[[Image:BBCOMBINATIONreordered.jpg]] | [[Image:BBCOMBINATIONreordered.jpg]] | ||
Revision as of 06:19, 29 September 2011
THERMOGENIC RESPONSE NUTRIENT BIOSENSOR
The original BioBrick that senses the levels of nitrates in soil developed by Bristol iGEM Team 2010, was designed to operate at room temperatures, especially for 37 ° C using the PyeaR BioBricks promoter.
Our composite seeks to extend the range of optimal functioning of the sensor developed by Bristol at temperatures below 20 ° C, as many of the crops in highlands (coffee and fruits), are in this range. To resolve this problem, we found that the use of the AOX enzyme (Alternative oxidase) gene responsible for thermogenesis in the sacred lotus, mainly used in Synthetic Biology to generate an increase in periplasmic temperature, produced an interesting increase in the growth and downsizing bacterial densities in temperature. This part uses a HybB promoter for "cold shock". Our new "device" combines the two parts, the AOX periplasmatic heat generator (BBa_K410000) and the Nitrates biosensor (BBa_K381001), to create That We Call The Renbo, to ensure that our meters Nutrient operate at low temperatures.
SubParts:
