Difference between revisions of "Team:Concordia"
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<p><img class="gladia" src="https://scontent.fyhu1-1.fna.fbcdn.net/v/t1.0-9/13418901_1010489892352573_4011538250536987772_n.jpg?oh=42adcd2f861988cb60b1700b80dd1c26&oe=57D2F2FC" alt="" width="250" height="250"/><strong>Our Project:</strong><br>This year, our iGEM team representing Concordia University aims to design Combat Cells, a novel adaptation of the popular and engaging TV show ‘Robot Wars’. The project concept involves the design and battling of ‘cellular robots,’ providing a new spin on synthetic biology for the scientific community. Our project consists of equipping cells with nanoparticles and having them battle one another in a controllable microfluidic device. Through this, our intention is to create and broadcast a web series through which we can entertain, educate, and inspire the public to participate in synthetic biology, and even create their own Combat Cells. The project encompasses three phases: nanoparticle synthesis, nanoparticle attachment, and analysis of cell survival on a microfluidic chip. | <p><img class="gladia" src="https://scontent.fyhu1-1.fna.fbcdn.net/v/t1.0-9/13418901_1010489892352573_4011538250536987772_n.jpg?oh=42adcd2f861988cb60b1700b80dd1c26&oe=57D2F2FC" alt="" width="250" height="250"/><strong>Our Project:</strong><br>This year, our iGEM team representing Concordia University aims to design Combat Cells, a novel adaptation of the popular and engaging TV show ‘Robot Wars’. The project concept involves the design and battling of ‘cellular robots,’ providing a new spin on synthetic biology for the scientific community. Our project consists of equipping cells with nanoparticles and having them battle one another in a controllable microfluidic device. Through this, our intention is to create and broadcast a web series through which we can entertain, educate, and inspire the public to participate in synthetic biology, and even create their own Combat Cells. The project encompasses three phases: nanoparticle synthesis, nanoparticle attachment, and analysis of cell survival on a microfluidic chip. | ||
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Revision as of 21:04, 18 July 2016
Our Project:
This year, our iGEM team representing Concordia University aims to design Combat Cells, a novel adaptation of the popular and engaging TV show ‘Robot Wars’. The project concept involves the design and battling of ‘cellular robots,’ providing a new spin on synthetic biology for the scientific community. Our project consists of equipping cells with nanoparticles and having them battle one another in a controllable microfluidic device. Through this, our intention is to create and broadcast a web series through which we can entertain, educate, and inspire the public to participate in synthetic biology, and even create their own Combat Cells. The project encompasses three phases: nanoparticle synthesis, nanoparticle attachment, and analysis of cell survival on a microfluidic chip.
