Difference between revisions of "Team:Pumas Mexico"

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<p><string><font color="#f25724" size="+1">Synerg-G</font><strong> is the project designed by the students of Pumas Synbio. Nowdays airplane fuel is responsible for 5% of the Co2 production, and is one the most consuming uses of petrol;.
 
<p><string><font color="#f25724" size="+1">Synerg-G</font><strong> is the project designed by the students of Pumas Synbio. Nowdays airplane fuel is responsible for 5% of the Co2 production, and is one the most consuming uses of petrol;.
 
The main objective of this Project is to design and alternative for the production of bioturbosine; bioturbosine is being based on Jatropha which doesn’t grow as fast and needed so we need an organism capable of growing faster while having the same output of lipids.
 
The main objective of this Project is to design and alternative for the production of bioturbosine; bioturbosine is being based on Jatropha which doesn’t grow as fast and needed so we need an organism capable of growing faster while having the same output of lipids.

Revision as of 18:28, 19 October 2016

Pumas_Mexico

Synerg-G is the project designed by the students of Pumas Synbio. Nowdays airplane fuel is responsible for 5% of the Co2 production, and is one the most consuming uses of petrol;. The main objective of this Project is to design and alternative for the production of bioturbosine; bioturbosine is being based on Jatropha which doesn’t grow as fast and needed so we need an organism capable of growing faster while having the same output of lipids.

We use synthetic biology tools to design two biobricks for C.vulgaris this ones were transformed into the organism to measure their activity.