Team:Calgary/Project/Accomplish

From 2012.igem.org

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<h2> Our team had many accomplishments over the course of this summer.</h2>
<h2> Our team had many accomplishments over the course of this summer.</h2>
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<p><b>In our Human Practices project, we ...</b></p>
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<p><b>In our <a class="orange">Human Practices</a> project, we...</b></p>
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<ul><li><p> Established a <b>dialogue between industry experts</b> in order to inform the design of our project.</p></li>
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<ul><li><p> Established a <b><a class="orange" href="https://2012.igem.org/Team:Calgary/Project/HumanPractices/Interviews">dialogue between industry experts</a></b> in order to inform the design of our project.</p></li>
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<li><p>Led a discussion through the oil sands leadership initiative (OSLI) on the need and potential for the use of <b>synthetic biology in the oil sands</b>.</p></li>
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<li><p>Led a discussion through the oil sands leadership initiative (OSLI) on the need and potential for the use of <b><a class="orange" href="https://2012.igem.org/Team:Calgary/Project/HumanPractices/Collaborations#initiative">
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<li><p>Submitted <b>novel riboswitch, promoter and regulatory parts</b> for use in the tight control of killswitch applications and beyond.</p></li>
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synthetic biology in the oil sands</a></b>.</p></li>
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<li><p>Submitted <b><a class="orange" href="https://2012.igem.org/Team:Calgary/Project/HumanPractices/Killswitch/Regulation">novel riboswitch, promoter and regulatory parts</a></b> for use in the tight control of killswitch applications and beyond.</p></li>
<li><p><b>Submitted and characterized</b> both a magnesium riboswitch/promoter GFP construct and a magnesium riboswitch/promoter kill gene construct.</p></li>
<li><p><b>Submitted and characterized</b> both a magnesium riboswitch/promoter GFP construct and a magnesium riboswitch/promoter kill gene construct.</p></li>
<li><p><b>Partnered with the UBC iGEM team</b> in order to build and better optimize the <i>dsz</i> desulfurization operon.</p></li>
<li><p><b>Partnered with the UBC iGEM team</b> in order to build and better optimize the <i>dsz</i> desulfurization operon.</p></li>

Revision as of 04:47, 23 October 2012

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Accomplishments

Our team had many accomplishments over the course of this summer.

In our Human Practices project, we...

  • Established a dialogue between industry experts in order to inform the design of our project.

  • Led a discussion through the oil sands leadership initiative (OSLI) on the need and potential for the use of synthetic biology in the oil sands.

  • Submitted novel riboswitch, promoter and regulatory parts for use in the tight control of killswitch applications and beyond.

  • Submitted and characterized both a magnesium riboswitch/promoter GFP construct and a magnesium riboswitch/promoter kill gene construct.

  • Partnered with the UBC iGEM team in order to build and better optimize the dsz desulfurization operon.

  • Showcased our project to our city and the world through various outreach initiatives including a Ted talk.

  • Premiered and beta-tested a video game at the Calgary Telus Spark World of Science.


In terms of FRED, we ...

  • Constructed a transposon library in Pseudomonas, identifying two positive hits sensitive to a variety of tailings pond toxins.

  • Submitted and electrochemically characterized the function of two novel hydrolase enzymes from E. coli, demonstrating the validity and potential of a triple-output system with high sensitivity and little background noise.

  • Designed and wet-lab verified a kinetic model of electrochemical gene expression.

  • Designed both software and hardware for a biosensor prototype.


In terms of OCSAR, we ...

  • Demonstrated the successful conversion of naphthenic acids into hydrocarbons using Washington 2011's PetroBrick.

  • Documented the functionality of an alternative enzyme to the PetroBrick (oleT) in producing alkenes from fatty acids.

  • Modified an existing xylE part to show the degradation of catechol into a product, which is then degraded into hydrocarbons using the PetroBrick or OleT enzyme.

  • Designed, built, and tested a functioning bioreactor system in which to house our toxin degrading strain.

  • Used flux variability analysis to optimize the production of our hydrocarbons, surpassing Washington’s previous results through modification of growth media.

  • Demonstrated the successful degradation of carbazole and DBT by our model strains.

  • Submitted sequenced BioBricks for the removal of nitrogen and sulfur from various compounds and mutagenized eight separate genes to remove illegal cut sites.

  • Submitted and characterized a new catalase generator as well as a novel oxido-reductase enzyme for use in our desulfurization project.

  • Had an amazing summer and learned a ton!