Difference between revisions of "Team:Ionis Paris/Demonstrate"

 
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                                     <h2 class="blog_topHd">Introduction</h2>
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                                     <h2 class="secHd">Introduction</h2>
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<p>As the project ended, our team managed to realize most of its objectives : we are ready to show a functional proof of concept, not only of the biosensor BioBrick, but also of our drone and containment tube. Though some improvements may be brought, such as the guiding system for the drone or the CelloCad optimization for the biosensor, Quantifly is now a real tool able to measure pollution in the outside environment.  Due to the iGEM Restrictions concerning biological material taken outside the lab, we were not able to actually perform a mapping, but we tried to simulate as best as possible the external conditions.<br/>
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<p>As the project ended, our team managed to realize most of its objectives : we are ready to show a functional proof of concept, not only of the biosensor BioBrick, but also of our drone and containment tube. Though some improvements may be brought, such as the guiding system for the drone or the CelloCad optimization for the biosensor, Quantifly is now reay to become a useful tool able to measure pollution in the outside environment.  Due to the iGEM Restrictions concerning biological material taken outside the lab, we were not able to actually perform a mapping, but we tried to simulate as best as possible the external conditions.<br/>
As we cannot spray a cloud of pollutants in the lab and fly through it, for quite obvious reasons, we decided to take a deconstructed approach. We assumed that we would make the elements of our project work one by one in simulated conditions, before putting them altogether. We stated that, if the biosensor, the containment tube and the drone are working, the whole project would be functional as well.</p>
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As it was not a feasible and safe option to spray a cloud of pollutants in the lab and fly through it, for quite obvious reasons, we decided to take a deconstructed approach. We assumed that we would make the elements of our project work one by one in simulated conditions, before putting them all together. We stated that, if the biosensor, the containment tube and the drone are working, the whole project would be functional as well.</p>
  
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                                     <h2 class="blog_topHd">Our Biosensor</h2>
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                                     <h2 class="secHd">Our Biosensor</h2>
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<p>Our biosensor is the BioBrick we put the most efforts in, in terms of assembly or characterization. We were rewarded in late August when we saw our bioluminescence results for the first time: it appears that not only the BioBrick device works, but that our statement correlating the intensity of light to the amount of pollutant was correct as well. ! We detailed all the characterization process extensively in the Proof of Concept page, accessible through <a href = "https://2016.igem.org/Team:Ionis_Paris/Proof">this link</a>.</p>
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<p>Our biosensor is the BioBrick we put the most efforts in, in terms of assembly or characterization. Our first bioluminescence results were very promising: it appears that not only the BioBrick device works, but that our statement correlating the intensity of light to the amount of pollutant was correct as well. ! We detailed all the characterization process extensively in the Proof of Concept page, accessible through <a href = "https://2016.igem.org/Team:Ionis_Paris/Proof"><font color="DeepPink">this link</font></a>.</p>
  
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                                    <h2 class="secHd">The Drone</h2>
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<p>The design of our drone is detailed in the Hardware section. It is flight-ready, and able to carry our bacteria to the sampling area. Though our drone is only a prototype, it can already carry up to 4 containment tubes, allowing four disctinct samplings. The number of tubes and the sealing mechanisms are the main points we want to improve. However, as you will see at the iGEM Giant Jamboree, our homemade drone is perfectly safe and functional. In case you want to build your own Quantifly drone or to improve our model, you can download  all of the 3D models by <a href = "https://static.igem.org/mediawiki/2016/0/0b/T--Ionis_Paris--QuantiflyDroneModels.zip"><font color="DeepPink">clicking on this link</font></a>.</p>
  
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                                    <h2 class="blog_topHd">The Drone</h2>
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<p>Our drone was built as detailed in the Hardware section. It is flight-ready, and able to carry our bacteria to the sampling area. The only thing we would like to improve is the opening mechanism for the containment tube: the actual one feels a bit clumsy, and we have the feeling that it could be improved over time. However, as you will see at the iGEM Giant Jamboree, our homemade drone is perfectly safe and functional. In case you want to build your own Quantifly drone or to improve our model, you can download  all of the 3D models by <a href = "https://static.igem.org/mediawiki/2016/0/0b/T--Ionis_Paris--QuantiflyDroneModels.zip">clicking on this link</a>.</p>
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            <img src="https://static.igem.org/mediawiki/2016/9/9b/T--Ionis_Paris--Demonstrate1.png" alt="">
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        <figcaption><p><b>The built drone</b></p></figcaption>
  
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                                    <h2 class="blog_topHd">The containment tube</h2>
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<p>The containment tube was tested and proved hermetic. Again, we were not able to perform any sampling using the tube due to a lack of technical means, but we tested its impermeability and proved that it could safely contain our bacteria. The opening/closing system also works perfectly, as expected. Just as for the drone, the 3D models we used to print our containment tube are available by <a href = "https://static.igem.org/mediawiki/2016/1/17/T--Ionis_Paris--QuantiflyTubeModels.zip">clicking on this link</a>.</p>
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<center><video width="660" height="350"  poster="https://static.igem.org/mediawiki/2015/8/83/Logo_IONIS.png" controls><source src="https://static.igem.org/mediawiki/2016/a/a9/T--Ionis_Paris--QuantiflyDrone1.0inflight.mp4" type='video/mp4'/><a href="https://www.youtube.com/watch?v=LvePDWSmZxs"><img border="0" src="https://static.igem.org/mediawiki/2015/8/83/Logo_IONIS.png" alt="Click to view on Youtube" width="760" height="415"></a>
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<p><font color ="DeepPink">Your browser either does not support HTML5 or cannot handle MediaWiki open video formats. Please consider upgrading your browser, installing the appropriate plugin or switching to a Firefox or Chrome install.</font></p></video></center>
  
             
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                                    <h2 class="secHd">The containment tube</h2>
                         
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<p>The containment tubes were 3D printed and assembled successfully. We were not able to perform any sampling using the tube due to a lack of technical means. However, we managed to mount the tube on our drone, and to create a system allowing the opening and closing of the tube mid-flight. Just as for the drone, the 3D models we used to print our containment tube are available by <a href = "https://static.igem.org/mediawiki/2016/1/17/T--Ionis_Paris--QuantiflyTubeModels.zip"><font color="DeepPink">clicking on this link</font></a>.</p>
                             
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            <center><img src="https://static.igem.org/mediawiki/2016/d/dd/T--Ionis_Paris--DemonstrateTubesvertical.png" alt="">
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        <figcaption><p><b>Our tube (Up: disassembled, Middle: sampling, Down: sealed)</b></p></figcaption></center>
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            <center><img src="https://static.igem.org/mediawiki/2016/e/ef/T--Ionis_Paris--Demonstratetubeindrone1.png" alt="">
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        <figcaption><p><b>Our tube included in the drone chassis</b></p></figcaption></center>
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                                     <h2 class="secHd">Potential improvements:</h2>
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<p>In the light of our achievements and realizations, we have thought about a few potential improvements that we could bring to our prototype. As biological improvements were discussed in the <a href="https://2016.igem.org/Team:Ionis_Paris/Proof"><font color="DeepPink">Proof of Concept</font></a> part, we will develop here the mechanical improvements we could bring to our project.<br/>
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First of all, the use of microfluidics: building a microfluidic circuit directly on our drone would have many advantages: less bacteria would be used with each sampling, which would mean more samples per flight. A smaller amount of substrate would also have to be used per sampling. Our drone might even be able to carry a small photosensitive cell, allowing on-field, real-time measurements.<br/>
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On a completely different angle, we considered removing bacteria from the drone itself: as we can see on our <a href ="https://2016.igem.org/Team:Ionis_Paris/HPintro"><font color ="DeepPink">Human Practices</font></a>, people do not seem to be ready to use GM-based solutions for now. Removing the bacteria from our drone and replacing them by an air-sampling mechanism would therefore be a solution to this problem, even if the risks of external contamination by ambient air are higher.</p>
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                                 <h4>IONIS IGEM</h4>
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                                 <h4>iGEM IONIS</h4>
                                 <p> We're a group of six different schools from the IONIS Education Group. For this competition we wanted to take advantages of the multiple schools and activity field given by the IONIS education group to create a solid project.</p>
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                                 <p> We're a group of six different schools from the IONIS Education Group. For this
                              <a href="https://2016.igem.org/Team:Ionis_Paris/Team">Read More</a>
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                                    competition we wanted to take advantage of the multiple schools and fields of activity
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                                    given by the IONIS education group to create a solid project.</p>
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                                         <li><a href="https://2016.igem.org/Team:Ionis_Paris">Home</a></li>
 
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Latest revision as of 03:43, 20 October 2016

Introduction

As the project ended, our team managed to realize most of its objectives : we are ready to show a functional proof of concept, not only of the biosensor BioBrick, but also of our drone and containment tube. Though some improvements may be brought, such as the guiding system for the drone or the CelloCad optimization for the biosensor, Quantifly is now reay to become a useful tool able to measure pollution in the outside environment. Due to the iGEM Restrictions concerning biological material taken outside the lab, we were not able to actually perform a mapping, but we tried to simulate as best as possible the external conditions.
As it was not a feasible and safe option to spray a cloud of pollutants in the lab and fly through it, for quite obvious reasons, we decided to take a deconstructed approach. We assumed that we would make the elements of our project work one by one in simulated conditions, before putting them all together. We stated that, if the biosensor, the containment tube and the drone are working, the whole project would be functional as well.

Our Biosensor

Our biosensor is the BioBrick we put the most efforts in, in terms of assembly or characterization. Our first bioluminescence results were very promising: it appears that not only the BioBrick device works, but that our statement correlating the intensity of light to the amount of pollutant was correct as well. ! We detailed all the characterization process extensively in the Proof of Concept page, accessible through this link.

The Drone

The design of our drone is detailed in the Hardware section. It is flight-ready, and able to carry our bacteria to the sampling area. Though our drone is only a prototype, it can already carry up to 4 containment tubes, allowing four disctinct samplings. The number of tubes and the sealing mechanisms are the main points we want to improve. However, as you will see at the iGEM Giant Jamboree, our homemade drone is perfectly safe and functional. In case you want to build your own Quantifly drone or to improve our model, you can download all of the 3D models by clicking on this link.

The built drone

The containment tube

The containment tubes were 3D printed and assembled successfully. We were not able to perform any sampling using the tube due to a lack of technical means. However, we managed to mount the tube on our drone, and to create a system allowing the opening and closing of the tube mid-flight. Just as for the drone, the 3D models we used to print our containment tube are available by clicking on this link.

Our tube (Up: disassembled, Middle: sampling, Down: sealed)

Our tube included in the drone chassis

Potential improvements:

In the light of our achievements and realizations, we have thought about a few potential improvements that we could bring to our prototype. As biological improvements were discussed in the Proof of Concept part, we will develop here the mechanical improvements we could bring to our project.
First of all, the use of microfluidics: building a microfluidic circuit directly on our drone would have many advantages: less bacteria would be used with each sampling, which would mean more samples per flight. A smaller amount of substrate would also have to be used per sampling. Our drone might even be able to carry a small photosensitive cell, allowing on-field, real-time measurements.
On a completely different angle, we considered removing bacteria from the drone itself: as we can see on our Human Practices, people do not seem to be ready to use GM-based solutions for now. Removing the bacteria from our drone and replacing them by an air-sampling mechanism would therefore be a solution to this problem, even if the risks of external contamination by ambient air are higher.