Team:Queens Canada/Side/Overview

After determining the general direction our project was headed towards, we came up with an array of side-projects that would supplement our goal of enabling C. elegans to chemotax towards pollutants in the environment.

Staying Clean: Biodegradation of Pollutants

Upon discovering that a bacterium, Pseudomonas putida, has the ability to degrade naphthalene through a specialized pathway, we worked on a proposed construct that serves as a thought experiment on the ability of C. elegans to acquire biodegradation capability. The P. putida pathway is extensive, however, we propose that with enough time and resources, the entire pathway could be engineered in C. elegans to allow the worm to eat up naphthalene.

Staying Up-to-Date: Reporter System

Staying Secure: Applying a Kill Switch

A kill switch to allow us to destroy the engineered C. elegans if the organisms threaten to destory the environment and surrounding ecosystems and species: We have come up with multiple kill switches, the most prominent of which are MRT-2 mutant and RNAi knockout. MRT-2 mutants are incapable of living past a certain number of generations due to accumulated telomere shortening and end-to-end chromosome fusions. RNAi knockout, on the other hand, works by taking advantage of the worm’s natural tendency to take up RNA from the environment and bacteria it digests. If we feed the worm bacteria with RNA pieces that cause sterility, we could control the worm population.

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-      <span class="classred"><a href="#model">model organism      </a></span>     </regulartext>
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-      <span class="classred"><a href="#chassis">eukaryotic chassis      </a></span>     </regulartext>
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-      <span class="classred"><a href="#GPCRs">GPCRs      </a></span>     </regulartext>
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-      <span class="classred"><a href="#wormGPCRs">worm GPCRs      </a></span>     </regulartext>
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-<h3orange>Giving <i> C. elegans </i> a Toolkit </h3orange><p>
+<h3orange>Expanding the Toolkit</h3orange><p>
 <regulartext> After determining the general direction our project was headed towards, we came up with an array of side-projects that would supplement our goal of enabling C. elegans to chemotax towards pollutants in the environment.  </regulartext>
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-<b><h3orange> Staying Clean: <b>Biodegradation of Pollutants </b> </h3orange></b>
+<b><h3orange> Staying Clean: <b>Biodegradation of Pollutants </b> </h3orange></b><p>
+<regulartext> Upon discovering that a bacterium, <i>Pseudomonas putida</i>,  has the ability to degrade naphthalene through a specialized pathway, we worked on a proposed construct that serves as a thought experiment on the ability of <i>C. elegans</i> to acquire biodegradation capability.  The <i>P. putida pathway</i> is extensive, however, we propose that with enough time and resources, the entire pathway could be engineered in <i>C. elegans</i> to allow the worm to eat up naphthalene.</regulartext>
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-<h3orange>Staying Secure: <b> Applying a Kill Switch </b> </h3orange>
+<h3orange>Staying Secure: <b> Applying a Kill Switch </b> </h3orange><p>
+<regulartext> A kill switch to allow us to destroy the engineered C. elegans if the organisms threaten to destory the environment and surrounding ecosystems and species: We have come up with multiple kill switches, the most prominent of which are MRT-2 mutant and RNAi knockout.  MRT-2 mutants are incapable of living past a certain number of generations due to accumulated telomere shortening and end-to-end chromosome fusions.  RNAi knockout, on the other hand, works by taking advantage of the worm’s natural tendency to take up RNA from the environment and bacteria it digests.  If we feed the worm bacteria with RNA pieces that cause sterility, we could control the worm population.</regulartext>