Difference between revisions of "Team:NCKU Tainan/Integrated Human Practices"

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                                         <p class="hpcontent">We were delighted when we found out someone who will be able to resolve our problems. UESTC-China, an iGEM team that focus on degrading straw into useful raw materials, which are glucose, xylose, ferule acid, and lignin. In addition, they aimed to convert glucose into butanol and hydrogen. As xylose is the main carbon source for our engineered <i>E. coli</i>, we came up with a collaboration idea by integrating our system at the downstream of their system. Xylose is one of the side product produced during straw degradation, it can be extracted and utilized in our system. Concerning the synthesis of xylose may produce greenhouse gas and chemicals, we would like to obtain xylose produced via biological method.
 
                                         <p class="hpcontent">We were delighted when we found out someone who will be able to resolve our problems. UESTC-China, an iGEM team that focus on degrading straw into useful raw materials, which are glucose, xylose, ferule acid, and lignin. In addition, they aimed to convert glucose into butanol and hydrogen. As xylose is the main carbon source for our engineered <i>E. coli</i>, we came up with a collaboration idea by integrating our system at the downstream of their system. Xylose is one of the side product produced during straw degradation, it can be extracted and utilized in our system. Concerning the synthesis of xylose may produce greenhouse gas and chemicals, we would like to obtain xylose produced via biological method.
 
                                         </p>
 
                                         </p>
                                         <p class="hpcontent">Straw was a bio waste in agriculture while it wasn't easy to decompose. UESTC-China's work successfully solved this problem with synthetic biology. Through our collaboration, they can not only produce bioenergy, but have another powerful application in CO<sub>2</sub> emission problem. NCKU-Tainan provided them a valuable application way and helped them design a draft of device. The xylose source from straw was really important to <i>E. coli</i> CO<sub>2</sub> utilization system which changed the positive carbon footprint into negative carbon footprint. This collaboration solved both the energy problem and environment problem.  
+
                                         <p class="hpcontent">Straw was a biowaste in agriculture while it wasn't easy to decompose. UESTC-China's work successfully solved this problem with synthetic biology. Through our collaboration, they can not only produce bioenergy, but have another powerful application in CO<sub>2</sub> emission problem. NCKU-Tainan provided them a valuable application way and helped them design a draft of device. The xylose source from straw was really important to <i>E. coli</i> CO<sub>2</sub> utilization system which changed the positive carbon footprint into negative carbon footprint. This collaboration solved both the energy problem and environment problem.  
 
                                         </p>
 
                                         </p>
  

Revision as of 11:57, 15 October 2018

Integrated Human Practices

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