Difference between revisions of "Team:ShanghaitechChina/Collaborations"

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This year, our team actively collaborated with another two iGEM teams in China, which are the Team Tsinghua-A from Tsinghua University as well as the JSNU-China from Jiangsu Normal University.<p></p>
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This year, our team actively collaborated with two iGEM teams in China, which are the Team Tsinghua-A from Tsinghua University and the JSNU-China from Jiangsu Normal University. The team Tsinghua-A from Tsinghua University focused on constructing a synthetic biology circuit to seek insights into noise propagation as well as measuring the capacity of parallel information channels. Our team members, Lechen Qian and Haolong Zhu, helped them to gain access to a better home-built computation platform, and applied their knowledge to modify and operate the algorithm, and scanned two key parameters, Ka (dimer association rate) and Kd (dimer dissociation rate constant) relevant to their modeling project in use of Gillespie Algorithm.  In addition, we also helped JSNU-China from Jiangsu Normal University to culture a hela cell clone (the ninth generation) in our culture facility, which later on became an indivisible part in their project and gave them new thinking about utilizing new cell lines. We also benefited a lot from through multiple communications with the two teams during team collaboration. For example, the wiki-design team at Tsinghua-A depicted a brief mechanism of our project in a cartoon style to better illustrate our biofilm-interfaced platform strategy. Their help has also provided us some inspirations to design our own big picture later on. <p></p>
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Besides, to further propagandize the iGEM as well as synthetic biology, the iGEM Day for the Public Interests (iPDI) was established this year alone with the start-up of the first-ever iGEM team at ShanghaiTech. For this year's iDPI, our team organized a Lab Open House Day in relation to the Shanghai Concordia International School. Inspired by our speeches and the lab visiting, some of the students demonstrated strong curiosity to the iGEM and synthetic biology. Therefore, we were now assiting them to build up their first-ever high school team for the futrue iGEMs. Our team will keep supervising them.  
 
Besides, to further propagandize the iGEM as well as synthetic biology, the iGEM Day for the Public Interests (iPDI) was established this year alone with the start-up of the first-ever iGEM team at ShanghaiTech. For this year's iDPI, our team organized a Lab Open House Day in relation to the Shanghai Concordia International School. Inspired by our speeches and the lab visiting, some of the students demonstrated strong curiosity to the iGEM and synthetic biology. Therefore, we were now assiting them to build up their first-ever high school team for the futrue iGEMs. Our team will keep supervising them.  
 
<a href="https://2016.igem.org/Team:ShanghaitechChina/HP/Gold">Click here for more details about our collaborations with future member in the iGEM community.</a><p></p>
 
<a href="https://2016.igem.org/Team:ShanghaitechChina/HP/Gold">Click here for more details about our collaborations with future member in the iGEM community.</a><p></p>
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               For this year’s competition, our team collaborated with the iGEM Team at Jiangsu Normal University.
 
               For this year’s competition, our team collaborated with the iGEM Team at Jiangsu Normal University.
 
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               JSNU’s project aims at applying anthocyan to a potential cancer therapy. Their early experiments were conducted based on the HEK293T where has a low expression of KLF4 compare with GES1. To better test their idea,various cancer cell lines were required for the further explorations. However, when they turned to work on the cancer cells, they realized that later cell generations (normally after the fifth generation) could be applied better in the test, but not commercialized cancer cell clones.Additionally, due to the high expense of the cell clone as well as the long time period of the cell culture, it seemed impossible for the team to conducted their further experiments in cancer cells within the time frame necessary.
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               JSNU’s project aims at applying anthocyan to a potential cancer therapy. Their early experiments were conducted based on the HEK293T where has a low expression of KLF4 compare with GES1. To better test their idea,various cancer cell lines were required for the further explorations. However, when they turned to work on the cancer cells, they realized that later cell generations (normally after the fifth generation) could be applied better in the test, but not commercialized cancer cell clones. Additionally, due to the high expense of the cell clone as well as the long time period of the cell culture, it seemed impossible for the team to conducted their further experiments in cancer cells within the time frame necessary.
 
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Revision as of 15:32, 19 October 2016

igem2016:ShanghaiTech