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| − | <h2><a href="#">Safety</a></h2> | + | <h2>Safety</h2> |
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| − | <section><p>Considering the implications of synthetic biology tools to the world beyond the lab, It is important to maintain safe and ethical use of engineered organisms. </p></section>
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| | + | <section><p>Considering the implications of synthetic biology tools to the world beyond the lab, It is important to maintain safe and ethical use of engineered organisms. </p></section> |
| | | | |
| | <section> | | <section> |
| − | <header><h3>Wet Lab Safety</h3><header> | + | <header><h3>Lab Safety</h3><header> |
| − | <p>Even a relatively innocuous chassis such as E. coli can be risky to use if improperly handled. To prevent exposure, we wore basic personal protective equipment in the lab at all times. This included appropriate clothing, covered shoes, lab coats, goggles, and disposable gloves.</p> | + | <p>Even a relatively innocuous chassis such as E. coli can be risky to use if improperly handled. To prevent our engineered microbes from being released into the environment, we followed our host lab’s guidelines for proper disposal of organic waste. To prevent exposure, we wore basic personal protective equipment in the lab at all times. This included appropriate clothing, covered shoes, lab coats, goggles, and disposable gloves.</p> |
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| − | <p>When choosing bacteria to use in our microbial fuel cell for their special ability to degrade Terephthalic Acid, a by-product of PET plastic degradation, we were careful to select only BSL1 organisms.</p> | + | <p>When choosing bacteria to use in our microbial fuel cell for their special ability to degrade Terephthalic Acid(TPA), a by-product of PET plastic degradation, we were careful to select only BSL1 organisms. For example, we chose not to work with P. aureginosa, a BSL2 organism which can use TPA as a carbon source. </p> |
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| − | <p>To prevent our engineered microbes from being released into the environment, we followed our host lab’s guidelines for proper disposal of organic waste.</p>
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| − | </section>
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| − | <section><header><h3>General Lab Safety</h3></header>
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| | <p>Some techniques involved using chemicals that are hazardous to inhale. When working with such chemicals, we were careful to only work under the fume hood. Flammables were stored in a separate cabinet and disposed of according to strict guidelines. </p> | | <p>Some techniques involved using chemicals that are hazardous to inhale. When working with such chemicals, we were careful to only work under the fume hood. Flammables were stored in a separate cabinet and disposed of according to strict guidelines. </p> |
| | </section> | | </section> |
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| | <section> | | <section> |
| − | <header><h3>Safety in Design</h3></header> | + | <header><h3>Safe Project Design</h3><header> |
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| | <p>Since we were working on a prototype with possible real-life applications, we considered safety when making crucial decisions about important aspects of our design. | | <p>Since we were working on a prototype with possible real-life applications, we considered safety when making crucial decisions about important aspects of our design. |
| | iGEM suggests that teams consider the following questions when designing their projects:</p> | | iGEM suggests that teams consider the following questions when designing their projects:</p> |
| | + | |
| | <ul><h4>Who will use your product? What opinions do these people have about your project?</h4> | | <ul><h4>Who will use your product? What opinions do these people have about your project?</h4> |
| − | <li>Our product is intended to be used as a plastic-mapping device for parties concerned with the distribution of plastic in the ocean. Organisations that we reached out to when considering our design (need notes from outreach)</li> | + | <p>Our product is intended to be used as a plastic-mapping and plastic-degrading device for ocean researchers and others concerned with the distribution of plastic in the ocean. The Seabin Project was very excited about Plastiback, and is interested in future collaborations. Parley for the Oceans also sent us a typical sample of ocean plastic. Read more about our human practices <a href=”https://2016.igem.org/Team:Harvard_BioDesign/Human_Practices”>here</a></p> |
| | </ul> | | </ul> |
| | | | |
| | <ul><h4>Where will your product be used? On a farm, in a factory, inside human bodies, in the ocean?</h4> | | <ul><h4>Where will your product be used? On a farm, in a factory, inside human bodies, in the ocean?</h4> |
| − | <li>Because our prototype is envisioned to be used in the ocean, we have come up with a bioreactor design that ensures the engineered microbes act as a closed system that is not released into the ocean environment.</li> | + | <p>Because our prototype is meant to be used in the ocean, we envision a bioreactor design that ensures the engineered microbes act as a closed system that is not released into the ocean environment. (See schematic in<a href=”https://2016.igem.org/Team:Harvard_BioDesign/Description”>description.</a>) The influx of plastic will make that difficult, but future directions for research will include solidifying design to prevent engineered microbes from escaping into the ocean environment. At our current stage of research, we have determined that PETase production exerts a significant metabolic load on our expression cells, making them unlikely to be able to survive in the ocean environment. Furthermore, E. coli have been shown to lose viability after exposure to seawater, suggesting they would not survive and proliferate if they escaped Plastiback <sup>1</sup>. This being said, our future work includes testing bioengineered control mechanisms such as a kill switch or synthetic amino-acid dependency <sup>2</sup> to make the risk of escape and proliferation in the environment even smaller. Lastly, because the Delftia bacteria in the microbial fuel cell is not genetically modified, its escape does not pose a significant risk.</p> |
| | </ul> | | </ul> |
| | | | |
| | <ul><h4>If your product is successful, who will receive benefits and who will be harmed?</h4> | | <ul><h4>If your product is successful, who will receive benefits and who will be harmed?</h4> |
| − | <li>Direct benefits of a successful and efficient plastic-sensing system, such as Plastiback will be felt by researchers looking to map the distribution of plastics in the ocean. This could really affect how well the effects of plastic pollution are neutralized. The device promises benefits to the greater public through improvement of our environmental systems.</li> | + | <p>Direct benefits of a successful and efficient plastic-sensing system, such as Plastiback, will be felt by researchers looking to map the distribution of plastics in the ocean, who have no alternative to physical sampling. Plastiback’s contribution to ocean plastic research will affect how well the effects of plastic pollution are neutralized. The device has immense potential to be useful tool for protecting ocean ecology. Because the ocean surrounds us and touches each of our lives every day, this application will benefit the global community.</p> |
| − | <li>As part of the prototype stage of our design, we are considering the environmental impact of the product in the oceans. Future directions include design solutions to the following important questions: | + | <p>As part of the prototype stage of our design, we are considering the environmental impact of the product in the oceans. Future directions of our project are mechanical design solutions to the following important questions: |
| − | <ul>How do we prevent small animals from getting trapped in the device?</ ul> | + | <ul style="list-style-type:disc; font-size: 20px; color: #545454"> |
| − | <ul>Will the device stay afloat and be easy to retrieve from the ocean?</ul> | + | <li>How do we prevent small animals from getting trapped in the device?</li> |
| − | </li> | + | <li>Will the device stay afloat and be easy to retrieve from the ocean?</li> |
| | + | </ul> |
| | + | </p> |
| | </ul> | | </ul> |
| | | | |
| | <ul><h4>What happens when it's all used up? Will it be sterilized, discarded, or recycled?</h4> | | <ul><h4>What happens when it's all used up? Will it be sterilized, discarded, or recycled?</h4> |
| − | <li>At the end of the object’s life cycle, it will be retrieved, sterilized, and reused. Collected debris will go to appropriate waste management systems.</li> | + | <p>At the end of a Plastiback’s life cycle, it will be retrieved, sterilized, and reused. Collected debris will go to appropriate waste management systems.</p> |
| | </ul> | | </ul> |
| | | | |
| | <ul><h4>Is it safer, cheaper, or better than other technologies that do the same thing?</h4> | | <ul><h4>Is it safer, cheaper, or better than other technologies that do the same thing?</h4> |
| − | <li>Sources: | + | <p>Based on our research, Plastiback is currently the only remote plastic detection device. Estimates of plastic in the ocean are currently derived from surveys by research crews hauling nets through the ocean and hand-counting pieces of plastic<sup>3</sup>. Plastiback, as an alternative to physical sampling, fills the gap in technology that can detect ocean plastic. Plastiback also has the added benefit of being able to collect plastic and degrade it, converting these fragments, especially microplastics which otherwise pollute the ocean and interfere with the lifecycles of marine organisms, into electricity. </p> |
| − | <ul><a href="http://news.nationalgeographic.com/news/2014/07/140715-ocean-plastic-debris-trash-pacific-garbage-patch/">http://news.nationalgeographic.com/news/2014/07/140715-ocean-plastic-debris-trash-pacific-garbage-patch/</a></ul>
| + | </ul> |
| − | <ul></ul>
| + | </section> |
| − | <ul></ul>
| + | |
| − | <ul></ul>
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| − | <ul></ul>
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| − | </li> | + | <section> |
| | + | <h3>Footnotes</h3> |
| | + | <p> |
| | + | <sup>1</sup>Rozen, Yael, and Shimshon Belkin. “Survival of Enteric Bacteria in Seawater.” FEMS Microbiology Reviews 25.5 (2001): 513–529. femsre.oxfordjournals.org. Web.<br> |
| | | | |
| − | <li>Conversations to have:
| + | <sup>2</sup>Mandell, Daniel J. et al. “Biocontainment of Genetically Modified Organisms by Synthetic Protein Design.” Nature 518.7537 (2015): 55–60. www.nature.com. Web.<br> |
| − | <ul>Patrick Ulrich (pulrich@seas.harvard.edu)</ul>
| + | |
| − | <ul>5gyres: http://www.5gyres.org/publications/</ul>
| + | |
| − | <ul>http://news.harvard.edu/gazette/story/2012/02/trouble-afloat-ocean-plastics</ul>
| + | |
| − | <ul></ul>
| + | |
| − | </li>
| + | |
| − | </ul>
| + | |
| | | | |
| | + | <sup>3</sup>Cressey, Daniel. “Bottles, Bags, Ropes and Toothbrushes: The Struggle to Track Ocean Plastics.” Nature 536.7616 (2016): 263–265. CrossRef. Web. |
| | + | </p> |
| | + | </section> |
| | | | |
| − | Who will use your product? What opinions do these people have about your project?
| |
| − | Our product is intended to be used as a plastic-mapping device for parties concerned with the distribution of plastic in the ocean. Organisations that we reached out to when considering our design (need notes from outreach)
| |
| − | Where will your product be used? On a farm, in a factory, inside human bodies, in the ocean?
| |
| − | Because our prototype is envisioned to be used in the ocean, we have come up with a bioreactor design that ensures the engineered microbes act as a closed system that is not released into the ocean environment.
| |
| − | If your product is successful, who will receive benefits and who will be harmed?
| |
| − | Direct benefits of a successful and efficient plastic-sensing system, such as Plastiback will be felt by researchers looking to map the distribution of plastics in the ocean. This could really affect how well the effects of plastic pollution are neutralized. The device promises benefits to the greater public through improvement of our environmental systems.
| |
| − | As part of the prototype stage of our design, we are considering the environmental impact of the product in the oceans. Future directions include design solutions to the following important questions:
| |
| − | How do we prevent small animals from getting trapped in the device?
| |
| − | Will the device stay afloat and be easy to retrieve from the ocean?
| |
| − | What happens when it's all used up? Will it be sterilized, discarded, or recycled?
| |
| − | At the end of the object’s life cycle, it will be retrieved, sterilized, and reused. Collected debris will go to appropriate waste management systems.
| |
| − | Is it safer, cheaper, or better than other technologies that do the same thing?
| |
| − | Sources: http://news.nationalgeographic.com/news/2014/07/140715-ocean-plastic-debris-trash-pacific-garbage-patch/
| |
| − | Conversations to have:
| |
| − | Patrick Ulrich (pulrich@seas.harvard.edu)
| |
| − | 5gyres: http://www.5gyres.org/publications/
| |
| − | http://news.harvard.edu/gazette/story/2012/02/trouble-afloat-ocean-plastics/
| |
| | | | |
| − | From Wiki Guidelines:
| |
| | | | |
| − | Safe Project Design
| |
| − | Does your project include any safety features? Have you made certain decisions about the design to reduce risks? Write about them here! For example:
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| − | Choosing a non-pathogenic chassis
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| − | Choosing parts that will not harm humans / animals / plants
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| − | Substituting safer materials for dangerous materials in a proof-of-concept experiment
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| − | Including an "induced lethality" or "kill-switch" device
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| − | Safe Lab Work
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| − | What safety procedures do you use every day in the lab? Did you perform any unusual experiments, or face any unusual safety issues? Write about them here!
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| − | Safe Shipment
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| − | Did you face any safety problems in sending your DNA parts to the Registry? How did you solve those problems?
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