Team:UCL/Humans/Story
From 2014.igem.org
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<p>In order to understand how our device could be used to remove azo dye contamination from within a water system we visited Mogden sewage treatment works. We want the integration of our bioprocess to be as seamless as possible, creating greater incentive for industry to consider our ideas. </p> | <p>In order to understand how our device could be used to remove azo dye contamination from within a water system we visited Mogden sewage treatment works. We want the integration of our bioprocess to be as seamless as possible, creating greater incentive for industry to consider our ideas. </p> | ||
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<p>Mogden is the second largest sewage treatment facility in the UK, covering an area of over 55 hectares of land. Being given a tour of the facility gave us an overview of the variety of phases waste water is treated at.</p> | <p>Mogden is the second largest sewage treatment facility in the UK, covering an area of over 55 hectares of land. Being given a tour of the facility gave us an overview of the variety of phases waste water is treated at.</p> | ||
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<p>The secondary treatment phase proved very exciting for our project. Following the removal of solid waste during primary treatment, the waste water is directed into aeration lanes. These aeration lanes contain a variety of naturally occurring bacteria chosen to degrade the remaining human waste, food waste, soaps and detergents.</p> | <p>The secondary treatment phase proved very exciting for our project. Following the removal of solid waste during primary treatment, the waste water is directed into aeration lanes. These aeration lanes contain a variety of naturally occurring bacteria chosen to degrade the remaining human waste, food waste, soaps and detergents.</p> | ||
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<p>Mogden has a single lane with anoxic conditions designed to promote anaerobic reactions. These lanes are also provided with a high nitrogen content to maintain the bacteria. The fluid is then directed into lanes with aerobic conditions where the remainder of the bacterial reactions can occur.</p> | <p>Mogden has a single lane with anoxic conditions designed to promote anaerobic reactions. These lanes are also provided with a high nitrogen content to maintain the bacteria. The fluid is then directed into lanes with aerobic conditions where the remainder of the bacterial reactions can occur.</p> | ||
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<p>This phase would be an ideal to integrate our device, the separate aerobic and anaerobic phases provide the conditions for our two-step process and would fit seamlessly into an already established process. The aerobic lanes use membrane diffusers to oxygenate the water, we further investigated the use of these diffusers for system as a different method of oxygen delivery.</p> | <p>This phase would be an ideal to integrate our device, the separate aerobic and anaerobic phases provide the conditions for our two-step process and would fit seamlessly into an already established process. The aerobic lanes use membrane diffusers to oxygenate the water, we further investigated the use of these diffusers for system as a different method of oxygen delivery.</p> | ||
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Revision as of 16:20, 15 October 2014
The Human Practice Story
This year UCL's iGEM team has addressed the subject of Policy and Practice with three central questions. The answers to which not only gave us valuable insight, but also guided our research to best benefit the world.
What does the Industry need?
In a bid to further understand the industry requirements for an Azo Dye remediation project three of our team ventured to the head office of The Ecological and Toxicological Association of Dyes and Organic Pigments Manufacturers (ETAD) in Basel, Switzerland. We met with their Chief Director Walter Hoffman along with Research and Development Directors from Bezema and Huntsman Dyeing Companies; Georg Roentgen and Dr Stefan Ehrenberg respectively.
We came out from the meeting with a much deeper understanding of the factory dyeing processes, current remediation strategies and the requirements of the entire industry. The table below summarises what we learned and how it changed the direction of our project.
Composition of dye effluent: Effluent not only contains azo dyes that we can toxic to E.coli upon remediation but Copper and Chromium salts in addition. | From the knowledge we set out plans to test the toxicity of different concentrations of copper and chromium salts on E.coli. If the salts proved toxic to E.coli we planned to use an overexpression construct for the Copper resistance proteins CusA and CusB as the first step towards solving this problem. We also planned to compare the survivability of our recombinant E.coli strain in textile industry effluent and assess further modifications that would improve our organisms effectiveness. |
Sulphonated azo dyes: In an effort to use less water in the dyeing process, companies are leaning towards the use of sulphonated dyes which cannot be easily broken down by normal factory methods | From this discussion we decided to create a new BioBrick part for the enzyme Lignin Peroxidase which has previously been shown to aid in the breakdown of sulphonated azo dyes |
Exploring Thames Water
In order to understand how our device could be used to remove azo dye contamination from within a water system we visited Mogden sewage treatment works. We want the integration of our bioprocess to be as seamless as possible, creating greater incentive for industry to consider our ideas.
Mogden is the second largest sewage treatment facility in the UK, covering an area of over 55 hectares of land. Being given a tour of the facility gave us an overview of the variety of phases waste water is treated at.
The secondary treatment phase proved very exciting for our project. Following the removal of solid waste during primary treatment, the waste water is directed into aeration lanes. These aeration lanes contain a variety of naturally occurring bacteria chosen to degrade the remaining human waste, food waste, soaps and detergents.
Mogden has a single lane with anoxic conditions designed to promote anaerobic reactions. These lanes are also provided with a high nitrogen content to maintain the bacteria. The fluid is then directed into lanes with aerobic conditions where the remainder of the bacterial reactions can occur.
This phase would be an ideal to integrate our device, the separate aerobic and anaerobic phases provide the conditions for our two-step process and would fit seamlessly into an already established process. The aerobic lanes use membrane diffusers to oxygenate the water, we further investigated the use of these diffusers for system as a different method of oxygen delivery.
How can we understand the impact of our project on a sociological scale?
Having already visited stakeholders from the dyeing industry to discuss the logistical aspects of our solution we decided to extend a hand to the rest of the stakeholders in the industry, as well as the general public. We gathered over 85 attendees from various specific industries including the general public and invited them to attend a seminar where we outlined the goals and technologies we were using. This presentation was then followed by a debate in an attempt to gather information about their thought and concerns about what we were doing. This debate centred around three key themes which we felt best reflected the concerns of the public in relation to the development of genetically modified organisms and synthetic biology.
- Are there better solutions to the problem than ours?
- Is it safe to use synthetic biology in the bioremediation of dyes?
- Whose responsibility is the problem?
The responses we acquired during the discussion lead our project to evolve to better fit society and industry stakeholder needs:
Question | General Responses to consider | Project Alterations in response |
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Are there better solutions to the problem than ours? | Is it safe to use synthetic biology in the bioremediation of dyes? | Whose responsibility is the problem? |
Remove use of Azo Dyes altogether and use alternative dyeing methodology | You can never know the future, you must move slowly in implementing such a plan. If there is an escape of the bacteria, you must stop them transferring DNA to other organisms or outcompeting beyond the current technology | Everybody's; scientists, industry, lobbyists, the general public. |
Collaboration with Bioartist Natsai Audrey to explore the possibility of Bacterial synthesised dyes | Exploring implementation timelines at a factory level for future business plans. Creating a Xenobiological module within the project. | Create #UncolourMeCurious short film to increase knowledge of the problem and hence increase likelihood of all parties knowing enough to take responsibility. |
Ethical Fashion (4), Textiles (11), Environmental/Sustainability Policy (4), Social Sciences and Ethics (3), Synthetic Biology/Engineering (32), Press (2), General Public (31)
Company RepresentationEthical Fashion Forum, Jack Wills, Aravore London, Central St Martins, Highams Park, Forum for the Future, University of Greenwich Law Dept, Global Water Forum, Environmental Industry Commission, UCL, University of Sussex, GamCare, University College London, Imperial College London, Guardian Newspaper, The Write Network
How do we engage the general public to understand the problem and the solution?
The #UncolourMeCurious Campaign
Our #UncolourMeCurious campaign was created so that awareness of the problem of azo dye pollution could spread hence breaking down the responsibility of the problem to anybody and everybody as suggested by our Citizen Synbio panel discussion. The #UncolourMeCurious campaign comprised of three fantastic art collaborations, a conceptual short film and social media campaign. This culminated in the #UncolourMeCurious Exhibition with works from numerous BioArt collaborators including Central St Martins, Natsai Audrey, Linden Gledhill and The Slade. On the opening night the spread of attendees ranged though the Ethical Fashion Forum, Jack Wills, Guardian Newspaper and many more. A more detailed attendee description can be found here
insert entire gallery of exhibit here
Central St Martins - move to collaborators page?
We approached the Central St Martins textiles department with our ideas of synthetic biology and science and they asked ‘When does technology like this become accessible?’ This question yielded a set of beautiful visualisation of the way our bacteria could be used to create art if controlled by light. These pieces by second year Textiles Design BA students Cameo Bondy and Barbara Czepiel exhibit the textiles that could be created if our bacteria contained optogenetic biobricks that switched their dye breakdown capacities on and off via light cues.
Natsai Audrey
*Pamela Content*
Linden Gledhill
*Edo Content*
The Slade
For the exhibition The Slade School of Art provided us with Pigment Cases outlining the history of dyes. They illustrated how dyeing technology has moved through the ages and allowed the public to witness how far we have come.
*Pictures of the pigment library with interactive links to joy's timetable
#UncolourMeCurious Conceptual Short Film
We knew that the exhibit would engage the public but we asked ourselves, what about those who do not live close enough to visit and learn about this issue? To achieve this we created the conceptual art film #UncolourMeCurious which has been entered into the Vienna Biofiction Film Festival competition.
Social Media
The short film was part of our social media campaign to try and raise awareness across the globe about the problem of Azo Dye toxicity. We took to twitter and facebook with the hashtag #UncolourMeCurious in order to communicate with the world of fashion and textiles that something had to be done. During the campaign we reached an average of 673 people on twitter per day and often more:
*Insert Gallery of Tweets*
We also reach over *insert super awesome number* via the short film as posted on youtube in over *insert super awesome number* countries of the world.
*Insert picture of super awesome analytics from youtube*