Team:Valencia/Project
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== '''Overall project''' == | == '''Overall project''' == | ||
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== Project Details== | == Project Details== | ||
+ | The implementation of the project has several parts and sub-objectives. | ||
+ | === Martian conditions simulation chamber === | ||
+ | We want to reproduce some of the characteristics that make difficult the life in Mars. Among them we can have the air pressure between 7 and 10 mbar, the gases composition, the high temperature range going from -70ºC to 20ºC in some parts of the planet. | ||
+ | Once we achieve this humble goal, we can use the chamber to try our engineered yeasts with the LEA gene and observe its behavior: if it grows, just only survives without growing or dies. | ||
+ | It’s a very important part of the project because is an easy way to prove whether the yeast can grow or at least survive in an environment with such limitations as Martian atmosphere can be. | ||
+ | === Red-house === | ||
+ | In the other hand, at some situation in Mars terraformation process, our microorganisms are going to need an appropriate (or cozy) environment to grow. Regarding this, we are going to build a “Red-House” (an analogy with a greenhouse, but in Mars!!) in order to preserve the growing cultures until they are ready to go to live in somewhere else. | ||
+ | The Red-house will be a device designed to protect the microorganisms from the harsh conditions of: temperature, pressure and radiation. | ||
+ | Once the device is thermally isolated from the exterior media, we are trying to warm its interior with electricity generated using wind turbines. | ||
- | + | The third phase is the test of the prionic switch in the original configuration. We want to test how the prionic switch respond to heat shock and another stress inputs, and if it inhibits the expression of the betaGAL reporter. | |
- | + | In this situation we also want to see the effect of “the color” of the cultures in its surface temperature. Hopefully betaGAL blue is better (warmer) than white and red (Martian red). | |
Revision as of 10:41, 9 September 2010
You can write a background of your team here. Give us a background of your team, the members, etc. Or tell us more about something of your choosing. | |
Tell us more about your project. Give us background. Use this is the abstract of your project. Be descriptive but concise (1-2 paragraphs) | |
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Contents |
Overall project
Project Details
The implementation of the project has several parts and sub-objectives.
Martian conditions simulation chamber
We want to reproduce some of the characteristics that make difficult the life in Mars. Among them we can have the air pressure between 7 and 10 mbar, the gases composition, the high temperature range going from -70ºC to 20ºC in some parts of the planet. Once we achieve this humble goal, we can use the chamber to try our engineered yeasts with the LEA gene and observe its behavior: if it grows, just only survives without growing or dies. It’s a very important part of the project because is an easy way to prove whether the yeast can grow or at least survive in an environment with such limitations as Martian atmosphere can be.
Red-house
In the other hand, at some situation in Mars terraformation process, our microorganisms are going to need an appropriate (or cozy) environment to grow. Regarding this, we are going to build a “Red-House” (an analogy with a greenhouse, but in Mars!!) in order to preserve the growing cultures until they are ready to go to live in somewhere else. The Red-house will be a device designed to protect the microorganisms from the harsh conditions of: temperature, pressure and radiation. Once the device is thermally isolated from the exterior media, we are trying to warm its interior with electricity generated using wind turbines.
The third phase is the test of the prionic switch in the original configuration. We want to test how the prionic switch respond to heat shock and another stress inputs, and if it inhibits the expression of the betaGAL reporter.
In this situation we also want to see the effect of “the color” of the cultures in its surface temperature. Hopefully betaGAL blue is better (warmer) than white and red (Martian red).