Team:Minnesota/Templates

Dry Lab

Wet Lab

Policies & Practices

Our Policies & Practices team had a holistic approach to addressing the public health concern of methylmercury contamination as it relates to the implementation of our device. Our team actively attempted to address problems associated with the application of our project and device. From early education and societal perception to small-business design and device implementation, UMN iGEM sought new ways to address our project from varying perspectives to better inform the design and launch of our project. To explore some highlights of our policies and practices team [insert navigation guide here].

K-12 Education

Building on past successes, our team was devoted to volunteering our services to the community in a number of educational venues. The team took our curriculum, first developed in 2013, and improved the structure and delivery of our lesson plans in hopes to encourage awareness and education on topics in synthetic biology. Since its inception, our educational outreach group ECORI (Educating Communities On Research Innovation) has taught our original curriculum to over 200 students (K-12); an exhibit-form of our curriculum to a number of children of all ages at the Science Museum of Minnesota, 3M; and has been represented at several STEM fairs within the metropolitan community. In the spirit of science, our curriculum has been ever evolving to constantly address salient topics and educational materials and is flexible in nature to be taught in a variety of settings.

Intellectual Property

Documentary

The University of Minnesota 2014 iGEM team proudly presents our documentary film discussing the background of our project and the bioethics relating to our device. The main purposes of this documentary film are to familiarize the audience with the global mercury contamination problem, to discuss the bioethical questions of synthetic biology and biotechnological products, and to evaluate the bioethical concerns of our device implementation. To address the above missions, we have conducted interview with specialists from environmental toxicology, biotechnology, and philosophy at the University of Minnesota. We explore the past incident of methylmercury contamination in Minamata, Japan, as well as the ongoing methylmercury contamination in the state of Minnesota. Through our collaboration with the 2014 Colombia iGEM Team, we further examine the current methylmercury contamination in Colombia because of illegal and informal gold mining using mercury as a reagent. While GMOs are prevalent in today’s society in forms of food, products, and biotechnology, the public perception of GMOs still diverges. We pace through many different discussions in our video, including why GMOs are perceived differently in the public, why research on the effect of GMOs is usually time- and fund-intensive, and how policy-making corresponds with scientific findings to ensure the biosafety of GMOs. So is it safe to implement our device that contains GMOs into the local, polluted water? How do we assess the benefits of implementing our device and how do we know if the benefits out-weight the potential risk of introducing a biohazard into the local water stream? What kinds of precautions should we bear in mind when designing the device? While our documentary addresses all these issues, what is even more thought-provoking is the question of can we reduce the usage of GMOs for bioremediation by reducing the production of pollution? Please sit back and enjoy as the University of Minnesota 2014 iGEM Team presents our full thought processes regarding the above matters in a documentary film.

Public Perception

our team sought to inform the majority stakeholders in our community concerning the scope of our project. This year, our team chose to have an exhibit catered towards adult residents at the Minnesota State Fair (the largest MN gathering with over 1.8 million visitors annually) to learn the ways we can best design our technology to meet the needs and concerns of the people whose waters we hope to help remediate.. We delivered a short synopsis of our device, the synthetic biology involved, and safety precautions we have insured. We then presented visitors with a five question survey (Likert Scale) to gauge public perception of both our device, and the synthetic biology methods used. The survey was a huge success with over 320 participants. The survey delivery captured a great cross-section of the MN community that would be most impacted by the implementation of our device. The results of our survey, illustrated below, informed how and where the public would be most comfortable with implementing our device, and illustrated the need for catered education addressing the public’s major concerns prior to applying our device in the environment. Our model for gauging public perception allowed for a wide, diverse crowd to be accessed. This model can be used upon request.