Team:StanfordBrownSpelman

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<div id="projects" class="projects underline"><h6><a href="#SBS iGEM">Projects</a></h6></div>
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<h6><a href='https://2014.igem.org/Team:StanfordBrownSpelman/Achievements'>Achievements</a></h6>
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<div id="team" class="team"><h6><a href=#SBS iGEM>Team</a></h6></div>
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                <h6><a href='https://2014.igem.org/Team:StanfordBrownSpelman/BioBricks'>BioBricks</a></h6>
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<div id="contact" class="contact"><h6><a href="#SBS iGEM">Contact</a><h6></div>
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<h6><a href='https://2014.igem.org/Team:StanfordBrownSpelman/Modelling'>Modeling</a></h6>
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                <h6><a href='https://2014.igem.org/Team:StanfordBrownSpelman/Building_The_Drone'>Building a UAV</a></h6>
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<h6><a href='https://2014.igem.org/Team:StanfordBrownSpelman/Human_Practices'>Human Practices</a></h6>
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                <h6><a href='https://2014.igem.org/Team:StanfordBrownSpelman/Outreach'>Outreach</a></h6>
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<h6><a href='https://2014.igem.org/Team:StanfordBrownSpelman/Lab'>Lab Notebook</a></h6>
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<h6><a href='https://2014.igem.org/Team:StanfordBrownSpelman/Safety'>Safety</a></h6>
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<h6><a href='https://2014.igem.org/Team:StanfordBrownSpelman/Meet_Our_Team'>Team</a></h6>
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<h6><a href='https://2014.igem.org/Team:StanfordBrownSpelman/Apply'><b>Apply!</b></a></h6>
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                <div class="team"><h6><a href="#" id="top3">iGEM 2014<br>Stanford-Brown-Spelman</a></h6></div>
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                <div id="iGEMimagelogomain" class="contact"><h6><a href="https://igem.org"><img src="https://static.igem.org/mediawiki/2014/5/52/SBSiGEM2014_iGEM_Logo_Original.jpg"></a></h6></div>
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<div class="sub3"><img id="cellulosePic" src="https://static.igem.org/mediawiki/2014/6/6f/SBS_iGEM_2014_Cellulose_Icon.png"><h4><a class ="categories" href="cellulose_acetate.html">Cellulose Acetate</a></h4>We produced a moldable &amp 3D printable bioplastic by transferring the acetylation machinery from <a href="http://en.wikipedia.org/wiki/Pseudomonas_fluorescens" target="_blank">Pseudomonas fluorescens</a> into <a href="http://en.wikipedia.org/wiki/Acetobacter#Acetobacter">Acetobacter hansenii.</a></div>
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<div class="sub3"><a href="https://2014.igem.org/Team:StanfordBrownSpelman/Cellulose_Acetate"><img id="cellulosePic" src="https://static.igem.org/mediawiki/2014/6/6f/SBS_iGEM_2014_Cellulose_Icon.png"></a><h4><a class ="categories" href="https://2014.igem.org/Team:StanfordBrownSpelman/Cellulose_Acetate">Biomaterials</a></h4>We attempted to produce a moldable &amp; 3D printable bioplastic by transferring the acetylation machinery from <a href="http://en.wikipedia.org/wiki/Pseudomonas_fluorescens" target="_blank"><i>Pseudomonas fluorescens</i></a> into <a href="http://en.wikipedia.org/wiki/Acetobacter#Acetobacter"><i>Gluconacetobacter hansenii.</i></a></div>
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<div class="sub2"><img id="hellCellPic" src="https://static.igem.org/mediawiki/2014/c/c6/SBS_iGEM_2014_Hell_Cell.png" class="two"><h4><a class ="categories" href="amberless_hell_cell.html">Amberless Hell Cell</a></h4>We generated hearty, radiation, heat, &amp cold resistant bacteria that are incapable of transferring engineered genes into the environment.</div>
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<div class="sub2"><a href="https://2014.igem.org/Team:StanfordBrownSpelman/Amberless_Hell_Cell"><img id="hellCellPic" src="https://static.igem.org/mediawiki/2014/c/c6/SBS_iGEM_2014_Hell_Cell.png" class="two"></a><h4><a class ="categories" href="https://2014.igem.org/Team:StanfordBrownSpelman/Amberless_Hell_Cell">Amberless Hell Cell</a></h4>We worked to create hearty, radiation, heat, &amp; cold resistant bacteria that exemplify codon security and can't transfer engineered genes into the environment.</div>
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<div class="sub3"><img id="waterPic" src="https://static.igem.org/mediawiki/2014/1/18/SBS_iGEM_2014_Waterproofing.png"><h4><a class ="categories" href="material_waterproofing.html">Material Waterproofing</a></h4>Our team biomimetically produced waxes and novel wasp proteins that prevent water absorbance without being toxic to the surrounding ecosystem.</a></div>
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<div class="sub3"><a href="https://2014.igem.org/Team:StanfordBrownSpelman/Material_Waterproofing"><img id="waterPic" src="https://static.igem.org/mediawiki/2014/1/18/SBS_iGEM_2014_Waterproofing.png"></a><h4><a class ="categories" href="https://2014.igem.org/Team:StanfordBrownSpelman/Material_Waterproofing">Material Waterproofing</a></h4>Our team biomimetically pursued novel wasp proteins and bacterial wax esters that prevent water absorbance without being toxic to the surrounding ecosystem.</a></div>
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<div class="sub2"><img id="biodegradePic" src="https://static.igem.org/mediawiki/2014/7/71/SBS_iGEM_2014_Biodegradation.png" class="two"><h4><a class ="categories" href="biodegradability.html">Biodegradability</a></h4>In 1999, when asked to comment on the king of Jordan's death, Pop sensation Mariah Carey responded: "I loved Jordan, he was a great guy."</div>
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<div class="sub2"><a href="https://2014.igem.org/Team:StanfordBrownSpelman/Biodegradability"><img id="biodegradePic" src="https://static.igem.org/mediawiki/2014/7/71/SBS_iGEM_2014_Biodegradation.png" class="two"></a><h4><a class ="categories" href="https://2014.igem.org/Team:StanfordBrownSpelman/Biodegradability">Biodegradability</a></h4>Though cellulose acetate is an inherently biodegradable material, our team undertook to actively degrade the biomaterial to streamline the process.</div>
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<div class="sub3"><img id="cellulosePic2" src="https://static.igem.org/mediawiki/2014/d/dd/SBS_iGEM_2014_drone_icon.png"><h4><a class ="categories" href="human_practices.html">Human Practices</a></h4>We produced a moldable &amp 3D printable bioplastic by transferring the acetylation machinery from <a href="http://en.wikipedia.org/wiki/Pseudomonas_fluorescens" target="_blank">Pseudomonas fluorescens</a> into <a href="http://en.wikipedia.org/wiki/Acetobacter#Acetobacter">Acetobacter hansenii.</a></div>
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<div class="sub3"><a href="https://2014.igem.org/Team:StanfordBrownSpelman/Cellulose_Cross_Linker"><img id="cellulosePic2" src="https://static.igem.org/mediawiki/2014/b/b7/SBSiGEM2014_Cellulose_Cross_Linker.png"></a><h4><a class ="categories" href="https://2014.igem.org/Team:StanfordBrownSpelman/Cellulose_Cross_Linker">Cellulose Cross-Linker</a></h4>We designed a system for both strengthening cellulose and attaching biosensors and other biological cells to cellulose surfaces.</div>
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  We are currently working on a series of projects towards the construction of a fully biological unmanned aerial vehicle (UAV) for use in scientific and humanitarian missions. The prospect of a biologically-produced UAV presents numerous advantages over the current manufacturing paradigm. First, a foundational architecture built by cells allows for construction or repair in locations where it would be difficult to bring traditional tools of production. Second, a major limitation of current research with UAVs is the size and high power consumption of analytical instruments, which require bulky electrical components and large fuselages to support their weight. By moving these functions into cells with biosensing capabilities – for example, a series of cells engineered to report GFP, green fluorescent protein, when conditions exceed a certain threshold concentration of a compound of interest, enabling their detection post-flight – these problems of scale can be avoided. To this end, we are working to engineer cells to synthesize cellulose acetate as a novel bioplastic, characterize biological methods of waterproofing the material, and program this material’s systemic biodegradation. In addition, we aim to use an “amberless” system to prevent horizontal gene transfer from live cells on the material to microorganisms in the flight environment.
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Increasingly in recent years, Unmanned Aerial Vehicles (also known as RPAS – Remotely Piloted Aircraft Systems – and UAS – Unmanned Aerial Vehicle Systems) have transitioned from being rare sightings to becoming a staple of the 21st century high-tech mainstream. Surveillance and military uses aside, UAVs have profound potential in areas ranging from medicinal and commercial delivery to agricultural monitoring and even space exploration; however, much of their potential remains untapped. The Stanford-Brown-Spelman iGEM team reached out to a number of scientists in a wide array of fields in regards to the future of UAVs, in search for the next-step looming advancement in the industry. The feedback pointed in a clear direction – the revolutionary creation of a biological UAV. </h6>
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   <div class="sub"><img src="https://static.igem.org/mediawiki/2014/6/61/SBS_iGEM_2014_1.png">The core of our project is the application of genes from <a href="http://en.wikipedia.org/wiki/Pseudomonas_fluorescens" target="_blank">Pseudomonas fluorescens</a> to produce a novel bioplastic.</div>
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Our team took upon ourselves this task in order to create a biodegradable UAV that would push on the boundaries of science while remaining applicable and useful to the world. We started by designing molds which were fabricated to a fungal mycelial "body" that was then coated with bacterial generated microbial cellulose to create a robust, durable foundation, and then re-engineered the “Amberless Hell Cell” concept to endow our UAV with pandemonium-resistant super-cells, all the while setting new bioethical standards through our gene-transfer preventative design. Humbled, we turned to nature to study and employ an ingenious method by which to waterproof our UAV, and then developed a biological process for degrading our UAV over a time period of our choosing. To extend the capabilities of this winged-Goliath, our team constructed Cellulose Cross-Linkers to further strengthen the cellulose foundation and allow biosensors to be attached to the surface of our UAV. </h6>
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<div class="sub"><img src="https://static.igem.org/mediawiki/2014/4/45/SBS_iGEM_2014_2.png">SBS iGEM has developed an integrated, multi-component material that is durable, biodegradable, &amp widely applicable.</div>
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While the above projects come together to lay a new path for the future of UAVs, they also expand the horizon in all other areas of synthetic biology and bioengineering with their versatile, far-ranging applications. Certainly, there is no denying that UAVs have been stigmatized for their combative purposes, but the SBS iGEM team members have worked hard to help showcase the important role that UAVs serve in all other areas of science and their benefits to humanitarian purposes. Go ahead and take a look around our Wiki, checkout our projects, our twenty biobricks, and our human practices efforts, and please feel free to stop any of us to ask questions or to hear more about our projects. Thank you and welcome to the SBS 2014 iGEM Wiki! </h6>
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<div class="sub"><img src="https://static.igem.org/mediawiki/2014/4/45/SBS_iGEM_2014_2.png">Do we need anything here?</div> -->
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   <h4>Special Thanks to Our Sponsors</h4>
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   <h4><center>Special Thanks to Our Sponsors</center></h4>
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   <a href="https://www.dna20.com/">DNA 2.0 </a>&#x25cf
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   <a style="text-decoration: none" href="http://www.dna20.com/" target="_blank">DNA 2.0</a>
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<a href="http://www.mathworks.com/">Mathworks </a> &#9679
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<a href="http://www.mathworks.com/" target="_blank">Mathworks</a>
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<a href="http://www.idt.com/">IDT </a> &#9679
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<a href="http://www.idt.com/" target="_blank">IDT </a>
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<a href="http://www.geneious.com/">Geneious </a>&#9679
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<a href="http://www.geneious.com/" target="_blank">Geneious </a>
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    <a href="http://www.planetary.brown.edu/RI_Space_Grant/">Rhode Island Space Grant </a>&#9679
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        <a href="http://www.planetary.brown.edu/RI_Space_Grant/" target="_blank">Rhode Island Space Grant </a>
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<a href="http://www.gasgc.org/">Georgia Space Grant </a>&#9679
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<a href="http://www.gasgc.org/" target="_blank">Georgia Space Grant </a>
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<a href="http://www.nasa.gov/centers/ames/cct/office/cif/2014/index.html#.U9wAQPldVKI">NASA Ames Directors’ Investment Fund </a>&#9679
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<a href="http://www.nasa.gov/centers/ames/cct/office/cif/2014/index.html#.U9wAQPldVKI" target="_blank">NASA Ames Directors’ Investment Fund </a>
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<a href="http://www.brown.edu/about/administration/president/">Brown University Office of the President </a>&#9679
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<a href="http://www.brown.edu/about/administration/president/" target="_blank">Brown University Office of the President </a>
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<a href="http://www.brown.edu/academics/college/fellowships/utra/">Brown University UTRA </a>&#9679
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<a href="http://www.brown.edu/academics/college/fellowships/utra/" target="_blank">Brown University UTRA </a>
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<a href="http://bioengineering.stanford.edu/education/REU.html">Stanford University REU program </a>&#9679
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<a href="http://bioengineering.stanford.edu/education/REU.html" target="_blank">Stanford University REU program </a>
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<a href="http://www.bchs.uh.edu/people/detail/?155622-961-5=tcooper">Tim Cooper at University of Houston for Pseudomonas Fluorescens </a>&#9679
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<a href="http://www.nasa.gov/centers/ames/cct/index.html#.VDzeHeeEjhM" target="_blank">NASA Ames Office of the Center Chief Technologist </a>
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<a href="http://www.spelman.edu/academics/faculty/jean-marie-dimandja">Jean-Marie Dimandja at Spelman College for 2D GC Analysis </a>&#9679
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<a href="http://research.calacademy.org/ent/staff/dkavanaugh">Dave Kavanaugh at Cal Academy of Sciences for helping us to trap wasps </a>&#9679
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<a href="https://ib.berkeley.edu/people/directory/detail/6000/">Michael Sheehan at UC Berkeley for helping us to identify wasp species</a>
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  <h4><center>Special Acknowledgements</center></h4>
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<a href="http://geo.arc.nasa.gov/sg/cv/esddir3cv-Brass.html">Jim Brass</a>, Kevin Reynolds and Bob Dahlgren for advice on UAVs</a>
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<a href="http://research.calacademy.org/ent/staff/dkavanaugh" target="_blank">Dave Kavanaugh at Cal Academy of Sciences for helping us trap wasps </a>
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<a href="http://ib.berkeley.edu/people/directory/detail/6000/" target="_blank">Michael Sheehan at UC Berkeley for helping us identify wasp species </a>
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<a href="http://www.ecovativedesign.com" target="_blank">Ecovative for the production of the mycelium drone components</a> ●
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<a style="text-decoration: none" href="http://www.dna20.com/" target="_blank">DNA 2.0 for their advice and tour</a> ● <a href="http://web.mit.edu/voigtlab/">Christopher Voigt at MIT for providing plasmids necessary for making our biodegradation constructs</a>●
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<a href="http://www.bchs.uh.edu/people/detail/?155622-961-5=tcooper" target="_blank">Tim Cooper at University of Houston for <i>Pseudomonas fluorescens</i> </a>●
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<a href="http://www.spelman.edu/academics/faculty/jean-marie-dimandja" target="_blank">Jean-Marie Dimandja at Spelman College for discussions of 2D GC Analysis </a>● <a href="https://www.linkedin.com/pub/timothy-brown/36/ab4/441" target="_blank">Timothy Brown from Thermo Fisher Scientific for teaching us how to use the Attune flow cytometer </a></div>
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   <div><a href = http://twitter.com/SBSiGEM2014><img src="https://static.igem.org/mediawiki/2014/9/9f/SBS_iGEM_2014_twitter.png"></a>&nbsp;&nbsp;&nbsp;<a href="http://instagram.com/sbs_igem_2014"><img src="https://static.igem.org/mediawiki/2014/6/6f/SBS_iGEM_2014_insta.png"></a>&nbsp;&nbsp;&nbsp;<a href="https://2013.igem.org/Team:Stanford-Brown"><img src="https://static.igem.org/mediawiki/2014/9/96/SBS_iGEM_2014_link.png"></a></div>
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Reach out: <a class="links" href="mailto:sbsigem2014@googlegroups.com">sbsigem@googlegroups.com</a>
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<a class="links" href="pdfs/Stanford-Brown-Spelman_Past_And_Present_Projects.pdf" target="_blank">View our Complete Project List</a>
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<a class="links" href="https://static.igem.org/mediawiki/2014/8/86/Stanford-Brown-Spelman_Past_And_Present_Projects.pdf" target="_blank">View our Complete Project List</a>
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<a class="links" href="https://2014.igem.org/Team:StanfordBrownSpelman/Meet_Our_Team" target="_blank">Meet our team!</a>
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Built atop Foundation. Content &amp Development &copy; Stanford–Brown–Spelman iGEM 2014.
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Built atop Foundation. Content &amp; Development &copy; Stanford–Brown–Spelman iGEM 2014.
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Latest revision as of 07:26, 29 August 2015

Stanford–Brown–Spelman iGEM 2014

Biomaterials

We attempted to produce a moldable & 3D printable bioplastic by transferring the acetylation machinery from Pseudomonas fluorescens into Gluconacetobacter hansenii.

Amberless Hell Cell

We worked to create hearty, radiation, heat, & cold resistant bacteria that exemplify codon security and can't transfer engineered genes into the environment.

Material Waterproofing

Our team biomimetically pursued novel wasp proteins and bacterial wax esters that prevent water absorbance without being toxic to the surrounding ecosystem.

Biodegradability

Though cellulose acetate is an inherently biodegradable material, our team undertook to actively degrade the biomaterial to streamline the process.

Cellulose Cross-Linker

We designed a system for both strengthening cellulose and attaching biosensors and other biological cells to cellulose surfaces.
Increasingly in recent years, Unmanned Aerial Vehicles (also known as RPAS – Remotely Piloted Aircraft Systems – and UAS – Unmanned Aerial Vehicle Systems) have transitioned from being rare sightings to becoming a staple of the 21st century high-tech mainstream. Surveillance and military uses aside, UAVs have profound potential in areas ranging from medicinal and commercial delivery to agricultural monitoring and even space exploration; however, much of their potential remains untapped. The Stanford-Brown-Spelman iGEM team reached out to a number of scientists in a wide array of fields in regards to the future of UAVs, in search for the next-step looming advancement in the industry. The feedback pointed in a clear direction – the revolutionary creation of a biological UAV.
Our team took upon ourselves this task in order to create a biodegradable UAV that would push on the boundaries of science while remaining applicable and useful to the world. We started by designing molds which were fabricated to a fungal mycelial "body" that was then coated with bacterial generated microbial cellulose to create a robust, durable foundation, and then re-engineered the “Amberless Hell Cell” concept to endow our UAV with pandemonium-resistant super-cells, all the while setting new bioethical standards through our gene-transfer preventative design. Humbled, we turned to nature to study and employ an ingenious method by which to waterproof our UAV, and then developed a biological process for degrading our UAV over a time period of our choosing. To extend the capabilities of this winged-Goliath, our team constructed Cellulose Cross-Linkers to further strengthen the cellulose foundation and allow biosensors to be attached to the surface of our UAV.
While the above projects come together to lay a new path for the future of UAVs, they also expand the horizon in all other areas of synthetic biology and bioengineering with their versatile, far-ranging applications. Certainly, there is no denying that UAVs have been stigmatized for their combative purposes, but the SBS iGEM team members have worked hard to help showcase the important role that UAVs serve in all other areas of science and their benefits to humanitarian purposes. Go ahead and take a look around our Wiki, checkout our projects, our twenty biobricks, and our human practices efforts, and please feel free to stop any of us to ask questions or to hear more about our projects. Thank you and welcome to the SBS 2014 iGEM Wiki!
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