Difference between revisions of "Team:Vanderbilt/Practices/Bioethics"

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   <h1>Ethics of Synthetic Biology: An Expert Perspective</h1>
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   <h2>Ethics of Synthetic Biology: An Expert Perspective</h2>
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<p> With our project having so much potential to impact theoretically any biotechnology usage that it is applied to, we wanted to consider all sides of the story: looking not just at industrial and medical applications of mutation-optimization, but also to the potential ethical considerations surrounding its implementation. The ways that our mutation-optimization could be implemented are so numerous that its future is as unpredictable as progression of synthetic biology itself. Given these unknowns, we sought the perspective of bioethicists to see the ways- both good and bad- that our project's technological advancement to be used.
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<h4>Dr. James Collins </h4>
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<p>As our team was developing our project ideas at the beginning of the year, we had the tremendous fortune to meet with Dr. James Collins from Arizona State University, who was giving a special seminar at our university. Dr. Collins is the former Director of the Population Biology and Physiological Ecology program at the National Science Foundation and the current Ullman Professor of Natural History and the Environment at Arizona State University, where he studies evolution and extinction in natural ecosystems. Recently, Dr. Collins has become involved in questions of synthetic biology and how it relates to responsible ethological and ethical practice. He was a lead author on the recent report Creating a Research Agenda for the Ecological Implications of Synthetic Biology, where he has raised some important yet under-emphasized questions in the potential effects that genetic technologies could have on the stability of natural ecosystems. Dr. Collins has been trying to start a dialogue in the synthetic biology community about new advances like "gene drives", which may have the potential to drive entire species into extinction. While these technologies may have enormous potential in preventing malaria, as Dr. Collins noted in his seminar, there are some significant ethical questions that need to be carefully considered. </p>
 
<p>As our team was developing our project ideas at the beginning of the year, we had the tremendous fortune to meet with Dr. James Collins from Arizona State University, who was giving a special seminar at our university. Dr. Collins is the former Director of the Population Biology and Physiological Ecology program at the National Science Foundation and the current Ullman Professor of Natural History and the Environment at Arizona State University, where he studies evolution and extinction in natural ecosystems. Recently, Dr. Collins has become involved in questions of synthetic biology and how it relates to responsible ethological and ethical practice. He was a lead author on the recent report Creating a Research Agenda for the Ecological Implications of Synthetic Biology, where he has raised some important yet under-emphasized questions in the potential effects that genetic technologies could have on the stability of natural ecosystems. Dr. Collins has been trying to start a dialogue in the synthetic biology community about new advances like "gene drives", which may have the potential to drive entire species into extinction. While these technologies may have enormous potential in preventing malaria, as Dr. Collins noted in his seminar, there are some significant ethical questions that need to be carefully considered. </p>
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<p>After our event with Dr. Collins, our team joined Dr. Collins for dinner, where we continued the conversation on bioethics and asked for his thoughts on our project to reduce mutation. Dr. Collins was enthusiastic about the potential of the benefits that our breakthrough could bring the field. One application Dr. Collins immediately honed in on was use in conjunction with engineered genes released into environment. There, Collins noted, there is very high danger that existing containment strategies like killswitches could fail if even a single organism has its killswitch mutated. </p>
 
<p>After our event with Dr. Collins, our team joined Dr. Collins for dinner, where we continued the conversation on bioethics and asked for his thoughts on our project to reduce mutation. Dr. Collins was enthusiastic about the potential of the benefits that our breakthrough could bring the field. One application Dr. Collins immediately honed in on was use in conjunction with engineered genes released into environment. There, Collins noted, there is very high danger that existing containment strategies like killswitches could fail if even a single organism has its killswitch mutated. </p>
  
<img src="https://static.igem.org/mediawiki/2015/f/f1/VU15_James_Collins.png" alt="james collins"/>
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Revision as of 07:33, 20 November 2015

Vanderbilt iGEM 2015

Ethics of Synthetic Biology: An Expert Perspective

With our project having so much potential to impact theoretically any biotechnology usage that it is applied to, we wanted to consider all sides of the story: looking not just at industrial and medical applications of mutation-optimization, but also to the potential ethical considerations surrounding its implementation. The ways that our mutation-optimization could be implemented are so numerous that its future is as unpredictable as progression of synthetic biology itself. Given these unknowns, we sought the perspective of bioethicists to see the ways- both good and bad- that our project's technological advancement to be used.

Dr. James Collins