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−	Sharing and collaboration are core values of iGEM. We encourage you to reach out and work with other teams on difficult problems that you can more easily solve together.
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		+	<h1 align="center">Overview on Collaborations</h1>
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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 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, 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 through multiple interactions 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 hydrogen-producing platform. Their help has also provided us inspiration to design our own big picture later on. <p></p>
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−	<h4> Which other teams can we work with? </h4>
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−	You can work with any other team in the competition, including software, hardware, high school and other tracks. You can also work with non-iGEM research groups, but they do not count towards the iGEM team collaboration silver medal criterion.
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−	In order to meet the silver medal criteria on helping another team, you must complete this page and detail the nature of your collaboration with another iGEM team.
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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.
		+	<a href="https://2016.igem.org/Team:ShanghaitechChina/HP/Gold#p5">Click here for more details about our collaborations with future member in the iGEM community.</a><p></p>
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−	<p>	+	<h1 align="center">iGEM at Tsinghua University</h1>
−	Here are some suggestions for projects you could work on with other teams:	+	</div>
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−		+	<img src="https://static.igem.org/mediawiki/2016/7/74/Stu_%282%29.png" style="width:100%;">
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−	<li> Improve the function of another team's BioBrick Part or Device</li>	+	This year, our team launched collaboration with the iGEM team at Tsinghua-A University.<p></p>
−	<li> Characterize another team's part </li>	+	Tsinghua-A’s iGEM project aims at constructing a synthetic biology circuit to seek insights into noise propagation as well as measure the capacity of parallel information channels. To better scrutinize the information flow mechanism, they planned run computational simulations on Matlab combined with the wet lab work. However, when they were simulating their system with Gillespie Algorithm, they fell short of computing power when it came to scanning the parameters. Due to the limited time frame, it was indeed a big challenge for them to deal with the difficulty shortly.<p></p>
−	<li> Debug a construct </li>	+	Knowing about their urgent need, immediately, our team decided to assist them by utilizing the equipment resources as well as team members with required intellect. Through a series of online conversations, we soon figured out the background information about their project and planned out a feasible solution to help them out. We actively communicated with several relevant research groups at ShanghaiTech as well as the nearby SARI (Shanghai Advanced Research Institute) to seek qualified computational platform. Then, we modified and operated the algorithm where we mainly scanned several key parameters, Ka (dimer association rate) and Kd (dimer dissociation rate constant). As later commented by the Tsinghua-A iGEM Team, it was our timely help that significantly boosted the efficiency of their project.<p></p>
−	<li> Model or simulating another team's system </li>	+	Meanwhile, benefiting from this connection, frequent team communications were raised as well. After exchanging the idea with regards of the projects, members from the Tsinghua-A showed strong interests in our Solar Hunter system. To better illustrate our biofilm-based platform strategy, the wiki-design team at Tsinghua-A depicted a brief mechanism of our project in a cartoon style, which provided us some inspirations to design our own big picture later on. The figure they drew is used and also can be seen on our Wiki page.<p></p>
−	<li> Test another team's software</li>	+	<a href="https://2016.igem.org/Team:Tsinghua-A/Collaborations">Click here to see our assistance reported by the iGEM team at Tsinghua University.</a>
−	<li> Help build and test another team's hardware project</li>	+	<div class="col-lg-offset-1 col-lg-8">
−	<li> Mentor a high-school team</li>	+	<center>
−	</ul>	+	<img src="https://static.igem.org/mediawiki/2016/e/ec/Stu_%283%29.png" style="width:80%;"></center>
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		+	<h1 align="center">iGEM at Jiangsu Normal University</h1>
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		+	<img src="https://static.igem.org/mediawiki/2016/7/7b/Stu_%281%29.png" style="width:100%;">
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		+	For this year’s competition, our team collaborated with the iGEM Team at Jiangsu Normal University.
		+	<p></p>
		+	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.
		+	Thankfully, our team just had the hela cell clone (the ninth generation) in stock which was originally prepared for our previous idea for the iGEM competition. Also, benefiting from some of the group members’ professional skills in cell culture, the cell clone demonstrated good viability. In response to the emergency request from the iGEM at JSNU, we very soon prepared the cell samples according to their needs, and sent the materials immediately.
		+	<p></p>
		+	They repeated their experiment among several varieties of cancer cell lines including Hela to see if their project can be realized on these cancer cells. However, The Hela cell seemed to be a little overexpressive of KLF4 that did not fit the situation well. Last but not least, the Hela cell became an indivisible part in their project and gave them new thinking.
		+	<p></p>
		+	Meanwhile, the wiki-design team at JSNU provided us assistance in creating avatars, where they drew a serious of cartoon bacteria characters based on the real photos of our team members. These avatars are plan to be used and will be showed at the Team Session on our wiki page later.<p></p>
		+	<a href="https://2016.igem.org/Team:JSNU-China/Collaborations">Click here to see our assistance reported by the iGEM team at Jiangsu Normal University.</a>
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Latest revision as of 03:32, 20 October 2016