Team:Valencia

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Mad yeasts on Mars?
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Under this curious title it is hidden the ambitious Project of Valencia iGEM team. In our project, we intend to present an intermediate scenario in the pathway towards the [[:Team:Valencia/Terraforming | terraforming of Mars]] (i. e., modifying the atmosphere and temperature of Mars in order to get the appropriate conditions to make it habitable for Terran living organisms). The idea is that, after preliminary changes devoted to make Mars conditions more suitable for life, it can be colonized by microorganisms that will accelerate some changes to make the planet conditions acceptable for plant life which, then, will be able to generate enough oxygen to eventually allow the colonization by animals, including humans.
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=The Project=
 
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'''Mad yeasts on Mars?'''
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[[Image:Valencia_MarsTransition.jpg|690px|]]
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Under this curious title it is hidden the ambitious Project of Valencia iGEM team. In our project, we intend to present an intermediate scenario in the pathway towards Mars Terraformation (i. e., modifying the atmosphere and temperature of Mars in order to get the appropriate conditions to make it habitable for Terran living organisms). The idea is that, after preliminary changes devoted to make Mars conditions more suitable for life, it can be colonized by microorganisms that will accelerate some changes to make the planet conditions acceptable for plant life which, then, will be able to generate enough oxygen to eventually allow the colonization by animals, including humans.
 
Obviously, we do not pretend to follow up all the process, but just to focus on the microorganisms’ colonization step, as motors of the atmosphere building and heating, two essential conditions on the Terraformation process.
Obviously, we do not pretend to follow up all the process, but just to focus on the microorganisms’ colonization step, as motors of the atmosphere building and heating, two essential conditions on the Terraformation process.
A consequence of the low Martian atmospheric density, the global temperature on Mars depends mainly on the energy exchange between the planet surface and the solar radiation. Therefore, one way to increase the temperature of the planet would be the change of the albedo altering the color of the surface and making it darker.
A consequence of the low Martian atmospheric density, the global temperature on Mars depends mainly on the energy exchange between the planet surface and the solar radiation. Therefore, one way to increase the temperature of the planet would be the change of the albedo altering the color of the surface and making it darker.
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[[:Team:Valencia/Project | Our proposal]] is that dark yeast cells would retain the arriving solar radiation and heat the surface. But, once the temperature reaches its optimum on the planetary surface, dark cells will no more be necessary and the color production should be switched off. In order to achieve that and taking advantage of Synthetic Biology principles, a [[:Team:Valencia/prion | switch based on prion proteins]] (on mad yeast!) will be used. 
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<!-- [[Image:valencia_vaca_levadura.jpg|right|200px|IGEM Valencia team 2010 project]] -->
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On the other hand, a big deal with this approach is the resistance of the organism to violent thermal changes of the Martian surface (summer-winter, day-night) which under certain conditions can be in a range of 20ºC and -80ºC. Thus this work will be complemented with the implementation of the expression of a [[:Team:Valencia/lea | LEA (Late Embryogenesis Abundant) “antifreeze” protein]]. These proteins in both plants and animals are associated with tolerance to water stress resulting from desiccation and cold shock.
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Our proposal is that dark yeast cells would retain the arriving solar radiation and heat the surface. But, once the temperature reaches its optimum on the planetary surface, dark cells will no more be necessary and the color production should be switched off. In order to achieve that and taking advantage of Synthetic Biology principles, a switch based on prion proteins (on mad yeast!) will be used. 
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On the other hand, a big deal with this approach is the resistance of the organism to violent thermal changes of the Martian surface (summer-winter, day-night) which under certain conditions can be in a range of 20ºC and -80ºC. Thus this work will be complemented with the implementation of the expression of an LEA (late embryogenesis abundant) “antifreeze” protein. These proteins in both plants and animals are associated with tolerance to water stress resulting from desiccation and cold shock.
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Summarizing, we are going to build a engineered yeast resistant to temperature changes and able to produce a dark pigment which will be the responsible of a global temperature increase on Mars.
Summarizing, we are going to build a engineered yeast resistant to temperature changes and able to produce a dark pigment which will be the responsible of a global temperature increase on Mars.
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[[Image:valencia_logo_loco_200.png|180px|right]]
[[Image:valencia_logo_loco_200.png|180px|right]]
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We have the 2010 IGEM team: 9 students from both Universitat de Valencia and Universidad Politecnica de Valencia, go to [[:Team:Valencia/Universities|The Universities]]. Most of us have backgrounds in Biology, Biotechnology, Chemistry, Engineering and Computer Sciences. We want to discover the enigmas of Synthetic Biology and now also the ones tha Mars puts on the table!!!! Go to [[:Team:Valencia/Team|The Team]]  page for more info on us. In the [[:Team:Valencia/Notebook/Calender|Notebook]] you can follow up our work in progress!!! and in [[:Team:Valencia/Gallery|Gallery]] you can see a bunch of pictures of the team working.
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We have the 2010 IGEM team: 9 students from both Universitat de València and Universidad Politècnica de València, go to [[:Team:Valencia/Universities|The Universities]]. Most of us have backgrounds in Biology, Biotechnology, Chemistry, Engineering and Computer Sciences. We want to discover the enigmas of Synthetic Biology and now also the ones tha Mars puts on the table!!!! Go to [[:Team:Valencia/Team|The Team]]  page for more info on us. In the [[:Team:Valencia/Notebook/Calender|Notebook]] you can follow up our work in progress!!! and in [[:Team:Valencia/Gallery|Gallery]] you can see a bunch of pictures of the team working.
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=News=
=News=
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[[Image:valencia_nasa.jpg|right|140px|NASA]]
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*02/11/2011 - Meeting with David Bergner, Deputy Chief of the [http://spacebiosciences.arc.nasa.gov/ Division of Space Biosciences], from [http://www.nasa.gov/centers/ames/home/index.html NASA Ames Research Center]. Discussed synthetic biology application in space bioscience.
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<br><br><br>
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[[Image:valencia_jamboree.jpg|left|200px|Jamboree 2010]]
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'''Jamboree 2010 Highlights'''
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[[Image:valencia_gold medal.jpg]]
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*Gold Medal: Received a gold medal for the BioBricks we made and characterized, our human practice, our modeling  efforts, our Experimental mesurements and our great project!!!.
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<br><br><br>
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'''Valencia Team in the News'''
[[Image:valencia_nota_publico.jpg|right|200px|IGEM Valencia team 2010 project explained]]
[[Image:valencia_nota_publico.jpg|right|200px|IGEM Valencia team 2010 project explained]]
We are on the national news!!! Check out the article "Synthetic bacteria for Mars" (in spanish in the ''Publico'' news paper on Sunday May 23th).
We are on the national news!!! Check out the article "Synthetic bacteria for Mars" (in spanish in the ''Publico'' news paper on Sunday May 23th).

Latest revision as of 11:16, 12 April 2011


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Mad yeasts on Mars?

Under this curious title it is hidden the ambitious Project of Valencia iGEM team. In our project, we intend to present an intermediate scenario in the pathway towards the terraforming of Mars (i. e., modifying the atmosphere and temperature of Mars in order to get the appropriate conditions to make it habitable for Terran living organisms). The idea is that, after preliminary changes devoted to make Mars conditions more suitable for life, it can be colonized by microorganisms that will accelerate some changes to make the planet conditions acceptable for plant life which, then, will be able to generate enough oxygen to eventually allow the colonization by animals, including humans.


Valencia MarsTransition.jpg


Obviously, we do not pretend to follow up all the process, but just to focus on the microorganisms’ colonization step, as motors of the atmosphere building and heating, two essential conditions on the Terraformation process.

A consequence of the low Martian atmospheric density, the global temperature on Mars depends mainly on the energy exchange between the planet surface and the solar radiation. Therefore, one way to increase the temperature of the planet would be the change of the albedo altering the color of the surface and making it darker. Our proposal is that dark yeast cells would retain the arriving solar radiation and heat the surface. But, once the temperature reaches its optimum on the planetary surface, dark cells will no more be necessary and the color production should be switched off. In order to achieve that and taking advantage of Synthetic Biology principles, a switch based on prion proteins (on mad yeast!) will be used.

On the other hand, a big deal with this approach is the resistance of the organism to violent thermal changes of the Martian surface (summer-winter, day-night) which under certain conditions can be in a range of 20ºC and -80ºC. Thus this work will be complemented with the implementation of the expression of a LEA (Late Embryogenesis Abundant) “antifreeze” protein. These proteins in both plants and animals are associated with tolerance to water stress resulting from desiccation and cold shock.

Summarizing, we are going to build a engineered yeast resistant to temperature changes and able to produce a dark pigment which will be the responsible of a global temperature increase on Mars.

The Valencia IGEM Team 2010

Valencia logo loco 200.png

We have the 2010 IGEM team: 9 students from both Universitat de València and Universidad Politècnica de València, go to The Universities. Most of us have backgrounds in Biology, Biotechnology, Chemistry, Engineering and Computer Sciences. We want to discover the enigmas of Synthetic Biology and now also the ones tha Mars puts on the table!!!! Go to The Team page for more info on us. In the Notebook you can follow up our work in progress!!! and in Gallery you can see a bunch of pictures of the team working.

News

NASA




Jamboree 2010

Jamboree 2010 Highlights

Valencia gold medal.jpg

  • Gold Medal: Received a gold medal for the BioBricks we made and characterized, our human practice, our modeling efforts, our Experimental mesurements and our great project!!!.




Valencia Team in the News

IGEM Valencia team 2010 project explained

We are on the national news!!! Check out the article "Synthetic bacteria for Mars" (in spanish in the Publico news paper on Sunday May 23th).

The article reviews the last year project of the Valencia IGEM 2009 team and then explains this year project.