Team:StanfordBrownSpelman/Human Practices
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<h3><center><a href="https://2014.igem.org/Team:StanfordBrownSpelman/Human_Practices">Uses of UAVs & Orthogonal <br> Systems in Nature</a></h3> | <h3><center><a href="https://2014.igem.org/Team:StanfordBrownSpelman/Human_Practices">Uses of UAVs & Orthogonal <br> Systems in Nature</a></h3> | ||
- | <div class="boxedmenu"><h7><center><a href="#" id="intro"> | + | <div class="boxedmenu"><h7><center><a href="#" id="intro">Intro</a> ● <a href="#results" id="pics">EPA Partnership</a> ● <a href="#" id="methods">Uses of UAVs</a> ● <a href="#" id="data">Interviews</a> ● <a href="#" id="project">Survey</a></div> |
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- | Unmanned Aerial Vehicles (UAVs) (also known as Unmanned Aircraft Systems (UAS) | + | <h6><center><iframe width="420" height="315" src="//www.youtube.com/embed/JL71MWVQbkA" frameborder="0" allowfullscreen></iframe></center><br> |
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+ | Unmanned Aerial Vehicles (UAVs) (also known as Unmanned Aircraft Systems <a href="http://www.uavs.org/index.php?page=what_is">(UAS)</a> have a long history of usage. According to | ||
+ | <a href="http://www.draganfly.com/">DraganFly Innovations Inc.</a>, early UAVs took the form of balloons and they were primarily used for military purposes for monitoring and eliminating enemies in the battlefield. However, in recent years, UAVs have been increasingly used by civilians to accomplish various scientific and humanitarian missions. Due to their promising ability to accomplish tasks that otherwise could have been tedious, unreachable or even dangerous to civilians, our team has considered the idea of improving the current models of UAVs in order to make them more biodegradable, modular and even cheaper and hence increasing their accessibility and practicability to the scientific and civilian societies. | ||
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- | In the midst of our scientific design process and laboratory work | + | In the midst of our scientific design process and laboratory work, our team has taken into serious consideration the risks, ethics and stigma of using UAVs for civilian uses. Our aim in conducting this iGEM human practices project was to dive deep into the social and economic impacts of using synthetic biology in general. Our second aim was to consider how to work around the stigma present in society regarding the uses of UAVs. Part of this project was also to discuss the regulations and policies involved in the flying of civilian UAVs and assess the accessibility and practicability of the current civilian UAVs. The main reason of doing this human practices project was to bring our laboratory work closer to humanity by assessing the impacts of our creation to the general society. |
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- | We are harnessing the power of genetic engineering to mitigate both of these scenarios. To address horizontal gene transfer, we are recoding the cells on our UAV to use the UAG stop codon, which usually signals the truncation of a protein during translation, as leucine, an amino acid, instead. When we engineer the genes we wish to transform into our cells (an “amberless” strain, as UAG stop is called “amber”), all instances of UAG will be replaced with different stop codons, and all leucine residues will be coded for by UAG. Thus, any engineered genes which are passed from an amberless cell to a normal cell in the environment will not be read correctly, as each leucine residue will be instead be interpreted as “stop” and will result in the production of a non-functional protein fragment. We hope that our amberless strain can be adopted as a model for any engineered organisms one might wish to send into the environment. | + | We are harnessing the power of genetic engineering to mitigate both of these scenarios. To address horizontal gene transfer, we are recoding the cells on our UAV to use the UAG stop codon, which usually signals the truncation of a protein during translation, as leucine, an amino acid, instead. When we engineer the genes we wish to transform into our cells (an “amberless” strain, as UAG stop is called “amber”), all instances of UAG will be replaced with different stop codons, and all leucine residues will be coded for by UAG. Thus, any engineered genes which are passed from an amberless cell to a normal cell in the environment will not be read correctly, as each leucine residue will be instead be interpreted as “stop” and will result in the production of a non-functional protein fragment. We hope that our amberless strain can be adopted as a model for any engineered organisms one might wish to send into the environment. <br><br> |
- | <div class="sub4"><a href="work/PUT-PDF-REFERENCE-HEREpdf"><img src="https://static.igem.org/mediawiki/2014/2/25/SBS_iGEM_2014_download.png"></a><a href="work/PUT-PDF-REFERENCE-HEREpdf">Click here to download an essay detailing S-B-S iGEM's collaboration with the United States Environmental Protection Agency.</a></div> | + | Finally, to address the invasion of our cells into the environment, we are engineering a pressure-sensitive “kill switch.” Upon crash, the cells will activate quorum sensing (a method of intercellular communication), which will act as a signal to begin producing a set of proteins which can degrade the cellulose acetate base material. Much of the UAV (minus the metals) will degrade into glucose, which can be taken up by organisms in the crash environment, while the engineered cells will be killed by the free acetate, which, hopefully, will be in high enough concentration to harm the biofilm but not the crash environment.<br><br> |
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+ | In order to determine whether these measures would be enough to ensure the safe and ethical dispersal of recombinant DNA into the environment, we have begun conversations with Dr. Mark Segal at the US Environmental Protection Agency. These talks served two purposes: to understand the current status of regulations surrounding the release of engineered biological materials into the environment and to see whether our adapted amberless concept might serve to clarify certain gray areas and push regulations forward, making them more sensible for researchers and safer for ecosystems everywhere. Currently, the study of genetically-modified organisms in the environment is covered under the 1997 <a href="http://www.gpo.gov/fdsys/pkg/FR-1997-04-11/pdf/97-8669.pdf" target="_blank">Microbial Products of Biotechnology</a> section of the Toxic Substances Control Act (TSCA), which says that limited, controlled trials are exempt from seeking EPA approval. However, the ultimate application of these recombinant cells in remote sensing capabilities (i.e. on a biodegradable UAV) would require approval from the EPA in the form of a TSCA Environmental Release Application (TERA). We are still in the process of determining whether our amberless concept could act as a case study for the EPA to consider when drafting new regulations. | ||
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+ | <!-- ===LINK TO NONEXISTENT EPA PAPER=== <div class="sub4"><a href="work/PUT-PDF-REFERENCE-HEREpdf"><img src="https://static.igem.org/mediawiki/2014/2/25/SBS_iGEM_2014_download.png"></a><a href="work/PUT-PDF-REFERENCE-HEREpdf">Click here to download an essay detailing S-B-S iGEM's collaboration with the United States Environmental Protection Agency.</a></div> --> | ||
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- | <h5><center> | + | <h5><center>Uses of UAVs</h5> |
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In order to fully understand the benefits, risks and ethics of using UAVs and to address the stigma surrounding their use, we first had to get first hand information from experts who work on, or use UAVs for their daily activities. To do this, we conducted short interviews (15 minutes long) with experts from various fields including Earth Sciences, Planetary Sciences, Synthetic Biology and Remote Sensing. The responses from these experts increased our knowledge on the current uses of UAVs, the capabilities of the current models, the regulations of handling UAVs and the future of this technology. We have used (and will continue to use) these responses as a tool to increase awareness to people of the good uses of UAVs. | In order to fully understand the benefits, risks and ethics of using UAVs and to address the stigma surrounding their use, we first had to get first hand information from experts who work on, or use UAVs for their daily activities. To do this, we conducted short interviews (15 minutes long) with experts from various fields including Earth Sciences, Planetary Sciences, Synthetic Biology and Remote Sensing. The responses from these experts increased our knowledge on the current uses of UAVs, the capabilities of the current models, the regulations of handling UAVs and the future of this technology. We have used (and will continue to use) these responses as a tool to increase awareness to people of the good uses of UAVs. | ||
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- | <h6>Q5: Even though 70% of respondents related UAVs to military uses, around 45% thought that using drones for civilian uses is a good idea. Although this number is not too low, around half of the respondents (around 55%) either were not interested in the UAV technology or did not think it was a good idea to introduce drones as a tool to use for societal functions. | + | <h6>Q5: Even though 70% of respondents related UAVs to military uses, around 45% thought that using drones for civilian uses is a good idea. Although this number is not too low, around half of the respondents (around 55%) either were not interested in the UAV technology or did not think it was a good idea to introduce drones as a tool to use for societal functions. This indicated a window of opportunity for us to educate more and more people, starting with college students (who are potential creators and makers of our society) and reach other communities at large.</h6></div> |
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- | Built atop Foundation. Content & Development © Stanford–Brown–Spelman iGEM 2014. | + | Built atop Foundation. Content & Development © Stanford–Brown–Spelman iGEM 2014. |
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Latest revision as of 03:00, 18 October 2014
Uses of UAVs & Orthogonal
Systems in Nature
Systems in Nature
Unmanned Aerial Vehicles (UAVs) (also known as Unmanned Aircraft Systems (UAS) have a long history of usage. According to
DraganFly Innovations Inc., early UAVs took the form of balloons and they were primarily used for military purposes for monitoring and eliminating enemies in the battlefield. However, in recent years, UAVs have been increasingly used by civilians to accomplish various scientific and humanitarian missions. Due to their promising ability to accomplish tasks that otherwise could have been tedious, unreachable or even dangerous to civilians, our team has considered the idea of improving the current models of UAVs in order to make them more biodegradable, modular and even cheaper and hence increasing their accessibility and practicability to the scientific and civilian societies.
In the midst of our scientific design process and laboratory work, our team has taken into serious consideration the risks, ethics and stigma of using UAVs for civilian uses. Our aim in conducting this iGEM human practices project was to dive deep into the social and economic impacts of using synthetic biology in general. Our second aim was to consider how to work around the stigma present in society regarding the uses of UAVs. Part of this project was also to discuss the regulations and policies involved in the flying of civilian UAVs and assess the accessibility and practicability of the current civilian UAVs. The main reason of doing this human practices project was to bring our laboratory work closer to humanity by assessing the impacts of our creation to the general society.
In the midst of our scientific design process and laboratory work, our team has taken into serious consideration the risks, ethics and stigma of using UAVs for civilian uses. Our aim in conducting this iGEM human practices project was to dive deep into the social and economic impacts of using synthetic biology in general. Our second aim was to consider how to work around the stigma present in society regarding the uses of UAVs. Part of this project was also to discuss the regulations and policies involved in the flying of civilian UAVs and assess the accessibility and practicability of the current civilian UAVs. The main reason of doing this human practices project was to bring our laboratory work closer to humanity by assessing the impacts of our creation to the general society.
Our Work with the EPA—
Synthetic Biology in the Air: Biological
UAVs and Environmental Safety Concerns
Synthetic Biology in the Air: Biological
UAVs and Environmental Safety Concerns