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− | <p1>In preparation for our <a href="https://2018.igem.org/Team:Imperial_College/Public_Engagement#art"><b>art exhibition</b></a>, we discussed the integration of science and art with a student, Alice, from the RCA. She mentioned that in fashion, chemical pollution as a result of the usage of dyes is prominent. Further reading made us aware that textile dyeing is the second largest polluter of clean water globally <a href="https://www.independent.co.uk/life-style/fashion/environment-costs-fast-fashion-pollution-waste-sustainability-a8139386.html">(Perry, 2018)</a>. We realized that using bacteria to synthesize dyes could provide for an ecologically friendly solution. Moreover, with the ability to input patterns using our electrode array, we could design simple prints. We worked on cloning the MelA gene into our construct design, but were unable to test it due to time constraints.</br> | + | <p1>In preparation for our <a href="https://2018.igem.org/Team:Imperial_College/Public_Engagement#art"><b>art exhibition</b></a>, we discussed the integration of science and art with a student, Alice Potts, from the RCA. She mentioned that in fashion, chemical pollution as a result of the usage of dyes is prominent. Further reading made us aware that textile dyeing is the second largest polluter of clean water globally <a href="https://www.independent.co.uk/life-style/fashion/environment-costs-fast-fashion-pollution-waste-sustainability-a8139386.html">(Perry, 2018)</a>. We realized that using bacteria to synthesize dyes could provide for an ecologically friendly solution. Moreover, with the ability to input patterns using our electrode array, we could design simple prints. We worked on cloning the MelA gene into our construct design, but were unable to test it due to time constraints.</br> |
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Latest revision as of 00:42, 18 October 2018
Integrated HP
Summary of Integrated Human Practices
Making our technology safer
Toxicity comparison between Pyocyanin and PMS
The 2012 OSHA Hazard Communication Standard ranks hazard ratings with the use of categories, with Category 0 being the lowest risk and Category 4 being the highest. With regards to toxicity, pyocyanin is a Category 4 substance (Santa Cruz Biotechnology, 2010) and extreme care was taken during our wet lab experiments to ensure our own safety and any contact with pyocyanin would warrant immediate medical attention. PMS on the other hand is a Category 0 substance (Santa Cruz Biotechnology, 2017) and thus is far easier and safer to handle.Cost comparison between PMS and common inducer molecules
A cursory look at the costs of PMS, pyocyanin and common inducer molecules (such as IPTG) already reveals stark differences in costs per gram. When accounting for working concentrations, this difference is further magnified, with PMS being 407 times cheaper than IPTG and 6600 times cheaper than pyocyanin. These costs are summarized in a table below, where costs per gram are obtained using the lowest price per gram on Sigma-Aldrich. However, costs only matter if it can be shown that PMS can have a similar fold induction to common inducer molecules such as IPTG and experimental results for fold induction suggesting that this is indeed the case can be found below.Inducer | Working Concentrations | Price per gram (£) | Mass per liter of media (mg) | Price per liter of media (pence) | CAS No. | Relative price to PMS (%) | References |
---|---|---|---|---|---|---|---|
PMS | 0.2 uM | 15.76 | 0.0613 | 0.0966 | 299-11-6 | 100 | Experimental Data |
Pyocyanin | 2.5 uM | 12,120 | 0.526 | 638 | 85-66-5 | 660,000 | Experimental Data |
IPTG | 40 uM | 41.2 | 9.53 | 39.3 | 367-93-1 | 40,700 | (NEB, 2018) |
Arabinose | 6.66 M | 0.785 | 1000 | 78.5 | 5328-37-0 | 81,300 | (Spadiut et. al., 2010) |
aTc | 0.214 uM | 1650 | 0.0991 | 16.4 | 13803-65-1 | 17,000 | (Nallamsetty and Waugh, 2007) |