Difference between revisions of "Team:NYMU-Taipei/Applied Design"

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         <h1>Applied design</h1>
 
         <h1>Applied design</h1>
 
         <p>Our project, Smart AlgaEnergy, is to improve the biofuel production by artificial photosynthesis and nitrogen starvation in closed and open ponds. There are several designs we show promise to the application:<br><br>
 
         <p>Our project, Smart AlgaEnergy, is to improve the biofuel production by artificial photosynthesis and nitrogen starvation in closed and open ponds. There are several designs we show promise to the application:<br><br>
1. Genetically modified cyanobacteria: Companies can use large ponds or closed systems to harvest biofuel simply by growing these more efficient microalgae.<br><br>
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2. Monitoring device for nitrogen starvation: Growers in open pond can use our device instantly monitor the growth of the algae and seed our genetically modified E. coli for nitrogen starvation.<br><br>
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<li>Genetically modified cyanobacteria: Companies can use large ponds or closed systems to harvest biofuel simply by growing these more efficient microalgae.<br><br>
3. Environmentally friendly: We have successfully included suicide mechanism in our nitrogen starvation E. coli, by adding lactose to the pond, the E. coli can be lysed.<br><br>
+
<li>Monitoring device for nitrogen starvation: Growers in open pond can use our device instantly monitor the growth of the algae and seed our genetically modified E. coli for nitrogen starvation.<br><br>
4. Valuable pigment side product: Our genetically modified cyanobacteria can also be used to produce valuable pigment such as zeaxanthin.<dd>
+
<li>Environmentally friendly: We have successfully included suicide mechanism in our nitrogen starvation E. coli, by adding lactose to the pond, the E. coli can be lysed.<br><br>
       
+
<li>Valuable pigment side product: Our genetically modified cyanobacteria can also be used to produce valuable pigment such as zeaxanthin.<dd>
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</ol>
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</p>
  
 
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Revision as of 18:36, 26 October 2017

HOME
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Improvement
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Applied Design
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Public Engagement
JUDGING FORM

CONTACT US

Email us: 2017igem.nymutaipei@gmail.com
Call us: 886-2-28267316
Facebook: NYMU iGEM Team

AFFILIATIONS & ACKNOWLEDGMENT

IGEM 2017
National Yang-Ming University
Special Thanks

Applied design

Our project, Smart AlgaEnergy, is to improve the biofuel production by artificial photosynthesis and nitrogen starvation in closed and open ponds. There are several designs we show promise to the application:

  1. Genetically modified cyanobacteria: Companies can use large ponds or closed systems to harvest biofuel simply by growing these more efficient microalgae.

  2. Monitoring device for nitrogen starvation: Growers in open pond can use our device instantly monitor the growth of the algae and seed our genetically modified E. coli for nitrogen starvation.

  3. Environmentally friendly: We have successfully included suicide mechanism in our nitrogen starvation E. coli, by adding lactose to the pond, the E. coli can be lysed.

  4. Valuable pigment side product: Our genetically modified cyanobacteria can also be used to produce valuable pigment such as zeaxanthin.