Team:ArtCenter MDP/Parts

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"Imagine huge bodies of water, giant ponds and lakes and just below the surface are trillions of organisms working 24/7, eating plant life and producing gasoline." - George Church, envisioning future synthetic biofuel production
"Imagine huge bodies of water, giant ponds and lakes and just below the surface are trillions of organisms working 24/7, eating plant life and producing gasoline." - George Church, envisioning future synthetic biofuel production
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Synthetic biology imagines or assumes a future for modified organisms beyond the lab. Biofuel research is currently focusing on both natural and genetically engineered algae to generate gasoline, with the goal of one day being available for public use. This objective has created a network of open-ponds for algae production. Dispersed across the southwest of the United States, companies are utilizing the environment’s abundance of sunshine - ideal algae growing conditions. As synthetic biology moves out of the lab, to the wild, to factories, to garage labs, to people’s homes what are the potential ecological effects associated with the release of a modified organism?<p>
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Urban Algae Sources:
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Car Pools is a series of simulations that examine the potential ecological effects associated with the public release of genetically altered algae for biofuel production. The project draws on current open-pond algae production methods to imagine a future infrastructure of fuel producing pools for the city of Los Angeles, a metropolis built for cars, home to more than 43,000 swimming pools.<p>
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The pool is typically viewed as a symbol of suburban leisure, Car Pools recasts it into a site of homegrown fuel production. The oil wells of tomorrow may be in sunny California. The project plays out different scales of interaction, the home, the neighborhood, and the city, to explore potential effects, such as pool wildlife management, neighborhood inculcation and contamination, local fuel production, and Los Angeles resource expansion. How can simulations at both micro and macro scales be used within synthetic biology to expose issues and opportunities beyond the lab? How does the process of live simulations reveal possible implications for the individual, neighborhood, city, and overall energy infrastructure?
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Revision as of 20:57, 17 October 2014


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"Imagine huge bodies of water, giant ponds and lakes and just below the surface are trillions of organisms working 24/7, eating plant life and producing gasoline." - George Church, envisioning future synthetic biofuel production

Urban Algae Sources:

  1. LA River Algae:
  2. Chinatown Algae:
  3. Huntington Gardens Coy Pond:
  4. CalTech Turtle Pond:
  5. Short Description (60 characters on what the DNA does)
  6. Long Description (Longer description of what the DNA does)
  7. Design considerations

Parts Table

Any parts your team has created will appear in this table below:
<groupparts>iGEM013 ArtCenter_MDP</groupparts>



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Contents

Parts Submitted to the Registry

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What information do I need to start putting my parts on the Registry?

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An important aspect of the iGEM competition is the use and creation of standard biological parts. Each team will make new parts during iGEM and will submit them to the <a href="http://partsregistry.org"> Registry of Standard Biological Parts</a>. The iGEM software provides an easy way to present the parts your team has created. The "groupparts" tag will generate a table with all of the parts that your team adds to your team sandbox. <p> Note that if you want to document a part you need to document it on the <a href="http://partsregistry.org Registry"> Registry</a>, not on your team wiki. Future teams and other users and are much more likely to find parts on the Registry than on your team wiki.

Remember that the goal of proper part documentation is to describe and define a part, so that it can be used without a need to refer to the primary literature. Registry users in future years should be able to read your documentation and be able to use the part successfully. Also, you should provide proper references to acknowledge previous authors and to provide for users who wish to know more.


When should you put parts into the Registry?

As soon as possible! We encourage teams to start completing documentation for their parts on the Registry as soon as you have it available. The sooner you put up your parts, the better recall you will have of all details surrounding your parts. Remember you don't need to send us the DNA to create an entry for a part on the Registry. However, you must send us the sample/DNA before the Jamboree. Only parts for which you have sent us samples/DNA are eligible for awards and medal requirements.

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The information needed to initially create a part on the Registry is:


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Parts Table

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<tr><td width="45%" colspan="3" valign="top"> Any parts your team has created will appear in this table below:</td></tr>

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</html> <groupparts>iGEM013 ArtCenter_MDP</groupparts>

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