Line 23: | Line 23: | ||
<p1> Our genetic circuit is activated/deactivated by the redox state of the transcription factor (SoxR). SoxR oxidation is modulated by small redox molecules, such as the redox-cycling drug pyocyanin. We realized that using another cheaper redox molecule could not only replace inducer molecules such as IPTG due to their price, but also make our system cheaper to use. Using PMS which is a small redox molecule, we can activate a gene much like IPTG would with p<i>lac</i>. Not only is PMS far cheaper than both pyocyanin and IPTG, it is also non-toxic and makes our system more applicable for real world applications. | <p1> Our genetic circuit is activated/deactivated by the redox state of the transcription factor (SoxR). SoxR oxidation is modulated by small redox molecules, such as the redox-cycling drug pyocyanin. We realized that using another cheaper redox molecule could not only replace inducer molecules such as IPTG due to their price, but also make our system cheaper to use. Using PMS which is a small redox molecule, we can activate a gene much like IPTG would with p<i>lac</i>. Not only is PMS far cheaper than both pyocyanin and IPTG, it is also non-toxic and makes our system more applicable for real world applications. | ||
</br></br> | </br></br> | ||
− | < | + | <h4>Toxicity comparison between Pyocyanin and PMS</h4></br> |
</br></br> | </br></br> | ||
− | < | + | <h4>Cost comparison between PMS and common inducer molecules</h4></br> |
</br></br><a href="https://2018.igem.org/Team:Imperial_College/Demonstrate#expt7" class="hpbutton">Click here for experimental results</a></br> | </br></br><a href="https://2018.igem.org/Team:Imperial_College/Demonstrate#expt7" class="hpbutton">Click here for experimental results</a></br> |
Revision as of 23:30, 15 October 2018