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Revision as of 00:35, 1 November 2017



BALTIMORE BIO-CREW

Bio-Engineering E.Coli To Degrade Plastic and Save The Baltimore Inner Harbor


Human Practices

The importance of the community's perspective and impact on our project was considered in every step of our process. The Baltimore-Bio Crew assessed the ethical integrity of our project through various methods such as public engagement, outreach, surveys, and presentations. Through these techniques, we have collected a diverse set of perspectives on our work and its capacity to positively impact the world. The Baltimore-Bio Crew performed presentations in front of audiences that varied from scientific professionals and community members to an environmental advocacy organization that was all interested in learning more about our work. Each presentation given was in preparation of the iGEM competition and was presented at different stages of progress in our work. The first notable presentation was given at the Institute of Marine and Environmental Technology, which is located near the Baltimore Inner Harbor. The audience was full of scientific specialists, that was able to give educational insight on the ways in which our project could develop. By presenting to this group, we were able to gain new outlooks on our process such as the practical uses of our product, the safeness of our methods, and the bioethical concerns of our work. Another important discussion that we had was with the community, people interested in science and our work visited the lab to hear more about our project. They were able to encourage our thoughts on the people’s opinions about synthetic biology and the practical uses of our product.

The Safety of E.coli in Our Project

The use of k-12 E.coli strains produces very little potential for harm in the environment and to other living organisms. The United States Environmental Protection Agency states that this strain “does not normally colonize the human intestine”, has “safe commercial use”, and is “not known to have adverse effects on microorganisms or plants”. Despite this, the team took safety precautions to prevent contamination or spread of this organism outside of the lab. Each member used latex gloves, thoroughly washed hands, and did not consume food or drink in the lab. We do not plan on releasing this bacteria into the environment, where mutations and environmental security can be impacted. Though we have thought about creating a “killswitch” causing the organism to self-destruct if found in a foreign environment, or is threatened by becoming a host to other DNA.

The By-Products of Plastic Degradation

In our process, the team has also considered the risk of the byproducts that are produced in breaking down PET plastics: ethylene glycol and terephthalic acid. Ethylene glycol is used in the manufacturing of antifreeze, which can cause harm to certain organisms that are wrongly exposed. Terephthalic acid is a product used in creating PET plastic. These two byproducts if collected, have the potential of promoting sustainability and recycling of materials. Ethylene glycol could possibly be used as a source of energy, or promoter of thermal energy as it has heat transfer and antifreeze properties. Terephthalic acid could be used to effectively recycle and reproduce plastics that had been previously broken down in our chemical process, decreasing the need for new PET plastics to be created and lessening its overproduction in our world. In order to separate these byproducts from the direct environment, we considered developing a bioreactor to break down PET plastic in office spaces, homes, and schools. We also would contain the degradation process in recycling plants, or in filters for synthetic fibers collected in washing machines.

The Approval of Synthetic Biology

The Baltimore Bio-Crew welcomed community visitors, lab members, and scientists alike to participate in our survey on the perceptions of synthetic biology in our environment. In this survey, we found a variety of data that opened our eyes about the feelings of the public in relation to synthetic biology. It was very important to us to know the communities stance on synthetic biology in their environment, and if they supported and improved our work, or had concerns.

The Importance of Our Work

In the collaboration with Baltimore Beyond Plastic, a local youth-led environmental advocacy group, we were able to explore the thoughts of students and Baltimore residents. These groups were able to express their individual ideas on the importance of our project and the need to address the issue of plastics in our environment.

Engaging With the Public

KIPP Middle Schoolers and Wax Worms Project

The Baltimore Bio-Crew partnered with the teachers of KIPP middle school to explore the properties of wax worms. Scientist Federica Bertocchini recently found that wax worms that invaded her beehives had escaped from the plastic bag that she stored them in. This interesting occurrence opened our minds up about the abilities of wax worms to biodegrade plastics. It as well as an awesome way to engage the public and younger students. We first tried with store bought worms and did not see any evidence of plastic eating (more tests are needed). We made a call to local beekeepers and a crew members mom for wax worms and she found someone with an infestation! The honeycombs were brought to BUGSS and the Bio-Crew isolated the worms and distributed in equal amounts in glass jars with wire mesh. We tested with beeswax (positive control), wax paper, low-density polyethylene (ziplock bags), high-density polyethylene (plastic bags), and finally cling wrap. Over 1.5 months the worms (in 2-3 life cycles -worms to moths to worms) are significant holes in every type of plastic tested. These were on display and discussed with the public before Baltimore Bio-Crew gave their second public talk at BUGSS during Baltimore Innovation week!

Baltimore Beyond Plastic

The Baltimore Bio-Crew partnered with a local environmental advocacy group that pushes for legislation on the control of plastics in our city. The Bio-Crew participated in the “Why We Care” project, where students and residents all over the city expressed their views on plastics in their environment and personal lives. This powerful project shows the true importance of finding ways to save our environment, as the issue of plastic connects with people all over the city.

Healthy Harbor EcoTour

The Baltimore Bio-Crew participated in a healthy harbor ecotour. This tour was very eye-opening on the different initiatives being taken to save our harbor that we were not even aware of. In this tour, each crew member had a different experience of the harbor that we have never had before. We learned about the structures put in place to involve the community in the environment from the playground and the map of the watershed to the rain garden. We also found that organizations were involved in promoting oyster growth directly in our inner harbor, and building live filters for the water using native plants.

BUGSS Birthday Presentation

The Baltimore Under Ground Science Space celebration of 5 years was this year. The Baltimore Bio-Crew participated in this special event that welcomed the public, lab members, and families of the crew. The crew presented our progress in the work as practice for iGEM, we invited the University of Maryland Team to be apart of this celebration. This presentation allowed us to explore the audience's opinions on synthetic biology and the usefulness of our work. We also invited the public to come into the lab and learn about pipetting and microorganisms.

IMET Presentation

During the summer the crew presented to scientific professionals at the Institute of Marine and Environmental Technology. This presentation was practice for the iGEM competition, although we had not completely finished our project we found that it was important to engage different audiences in our work. The audience was welcomed to ask questions, provide suggestions, and guide the future directions of our work.
IMET