Team:TU Delft-Leiden/Achievements

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Revision as of 20:30, 17 October 2014 by Anamaria (Talk | contribs)

iGEM 2014 Microfluidics Track

Bronze Medal

  • Team registration
  • Complete Judging form
  • Team Wiki
  • Poster and talk for the iGEM Giant Jamboree ready
  • Demonstration of the implementation of any fluidic system. Our team documented it via video, images, and text how our team fabricated and tested any milli-, micro- or nano-fluidic system. The system documentation include both the fluidic device and any hardware for controlling the device (e.g. syringe pump). We provide evidence that (a) at least one system was fabricated, and (b) at least one aspect of the system (e.g. flow of food color) functions as planned

Silver Medal

In addition to these, our team achieved the following goals that qualify us for a silver medal:

Gold Medal

In addition to the Bronze and Silver Medal requirements, our team achieved the following goals, that qualify us for a gold medal:

  • Utilizing our novel fluidic system, we have characterized the function of an existing Part. Any biological protocols performed utilizing our microfluidic system is documented. We compared biological protocols conducted on-chip against standard bench top techniques. Data collected is uploaded to the page of the part(s) used on the Registry of Standard Biological Parts via experience page/contribution system.
  • Utilizing the fluidic system, we have characterized the following new Parts: BBa_K1316011, BBa_K1316012, BBa_K1316016. Any biological protocols performed utilizing your microfluidic system have been documented on our webiste. We have compared biological protocols conducted on-chip against standard bench top techniques. Data collected is uploaded to the page of the part(s) used on the Registry of Standard Biological Parts via experience page/contribution system
  • Our team helped another registered iGEM teams from another institution by characterizing a part and collaborated with other registered iGEM teams.
  • During the summer we addressed several ethical concerns related to our project (ie. Bringing synthetic biology outside the lab, the possibility that a microbial sensor device that detects landmines would get into the wrong hands, safety issues). To answer all these questions, we had meetings with various stakeholders. All these aspects are well documented on our Policy&Practice page

iGEM prizes

Our team have additional achievements that make it eligible to the following prizes

  • Best Policy&Practice . By interviewing and discussing with a broad range of stakeholders, we have been able to determine the best application for our landmine detection module. Besides that, we have identified various issues concerning SynBio commercialization, such as legislature and public opinion, focused on the Netherlands, and proposed a strategy to guarantee a successful future for SynBio.
  • Best Measurement Approach . We measured the current our E.coli generated via a selfmade anaerobic bioreactor setup coupled to a potentiostat in order to be able to measure current created by modified E.coli. Subsequently, we miniaturized our potentiostat system, creating a microfluidics device (an improved version of the Dropsens).
  • Best Supporting Software .We wrote code for Labview in order to be able to perform the relevant measurements for our potentiostat setup. This code can be used by others to perform these measurements as well


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