Difference between revisions of "Team:AUC TURKEY/Description"

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The Overview:
 
The Overview:
We have an heat responsive system designed to respond and counteract changes in temperature in both ways. As the temperature decreases, catalase production increases(exothermic breakdown of hydrogen peroxide). When there is an increase in temperature, urease production is stimulated(endothermic breakdown of urea). The two systems respond to each other through inserted lac-inducible systems.
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Heat management and regulation is one of the biggest issues of 21st Century. Especially after the development of the refrigeration technologies, the world has adapted to thermo-regulation systems in real-life application, industry and science. This continuing adaptation has led to the dependence on temperature wise systems and their maintenance.
The short of the story, we pretty much got heat stabilizer bacteria, acting like an air conditioner, heating and cooling as required and we need a project name. We are much too 'conditioned' to come with good names right now. So iGEM community, please help us!
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The system we wish design in this occasion hopes to combat the issue of heat regulation that contests scientists and firms alike. 'Enter Project Name' will maintain the temperature of the system at a specific temperature through the functioning of two inversely affecting reactions regulated by the temperature of the system itself. The system stimulates an endothermic reaction pathway in higher temperatures and an exothermic reaction pathway in lower temperatures with one system inhibiting the other during function. The heat conditions of the system will both affect the functioning of 'Enter Project Name' and also be regulated by 'Enter Project Name'.
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Revision as of 15:43, 8 July 2015

37 °C
The Overview: Heat management and regulation is one of the biggest issues of 21st Century. Especially after the development of the refrigeration technologies, the world has adapted to thermo-regulation systems in real-life application, industry and science. This continuing adaptation has led to the dependence on temperature wise systems and their maintenance. The system we wish design in this occasion hopes to combat the issue of heat regulation that contests scientists and firms alike. 'Enter Project Name' will maintain the temperature of the system at a specific temperature through the functioning of two inversely affecting reactions regulated by the temperature of the system itself. The system stimulates an endothermic reaction pathway in higher temperatures and an exothermic reaction pathway in lower temperatures with one system inhibiting the other during function. The heat conditions of the system will both affect the functioning of 'Enter Project Name' and also be regulated by 'Enter Project Name'.
Text here.