Difference between revisions of "Team:Toulouse-INSA-UPS/Awards"
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<a class="nav-link btn btn-secondary rounded-top corner-bottom mr-1" data-toggle="pill" href="#Ach_part2" role="tab" style="color:white !important;">Special Prizes</a> | <a class="nav-link btn btn-secondary rounded-top corner-bottom mr-1" data-toggle="pill" href="#Ach_part2" role="tab" style="color:white !important;">Special Prizes</a> | ||
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| + | <a class="nav-link btn btn-secondary rounded-top corner-bottom mr-1" data-toggle="pill" href="#Ach_part3" role="tab" style="color:white !important;">Experience</a> | ||
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<p>A best new part should be fully characterized, have a touch of novelty, demonstrated efficiency, and should inspire the next generation of iGEMers. We feel the Cerberus part matches this statement. It encodes a protein platform with three domains to link very different organic or inorganic molecules. We have proven its strong affinity for cellulose and the functionality of its streptavidin head, but its more impressive asset is its azidophenylalanine head, based on an unnatural amino acid which allows the grafting of any molecule with an alkyne function by click chemistry. The structure and dynamics of Cerberus were methodically modelled. We also demonstrated its efficiency to functionalize cellulose with fluorescence or magnetism, but its potential goes well beyond that since it virtually allows linking any molecule to any other, even cell polymers. We are very curious to see what the next iGEM teams will do with it! </p> | <p>A best new part should be fully characterized, have a touch of novelty, demonstrated efficiency, and should inspire the next generation of iGEMers. We feel the Cerberus part matches this statement. It encodes a protein platform with three domains to link very different organic or inorganic molecules. We have proven its strong affinity for cellulose and the functionality of its streptavidin head, but its more impressive asset is its azidophenylalanine head, based on an unnatural amino acid which allows the grafting of any molecule with an alkyne function by click chemistry. The structure and dynamics of Cerberus were methodically modelled. We also demonstrated its efficiency to functionalize cellulose with fluorescence or magnetism, but its potential goes well beyond that since it virtually allows linking any molecule to any other, even cell polymers. We are very curious to see what the next iGEM teams will do with it! </p> | ||
| + | <p>Our convictions were confirmed, as we succeed in winning this special award! We are particularly proud of Cerberus, now certified to be the best dog by a panel of judges.</p> | ||
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<h3 class="heavy"><img src="https://static.igem.org/mediawiki/2018/f/f9/T--Toulouse-INSA-UPS--Ach--Youn--laurel.jpg" style="width:10%" alt="" class="filter-gray-90" />Nomination: Best Manufacturing Project </h3><hr/> | <h3 class="heavy"><img src="https://static.igem.org/mediawiki/2018/f/f9/T--Toulouse-INSA-UPS--Ach--Youn--laurel.jpg" style="width:10%" alt="" class="filter-gray-90" />Nomination: Best Manufacturing Project </h3><hr/> | ||
| − | <p>In recognition of our efforts on the project as a whole, we were nominated to receive the Special Prize for Best Manufacturing Project. </p> | + | <p>In recognition of our efforts on the project as a whole, we were nominated to receive the Special Prize for Best Manufacturing Project. This means a lot to us, as this track was very popular and featured many great projects!</p> |
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| + | <h2 id="Experience" class="heavy">Our Experience</h2> | ||
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| + | <h3 class="heavy">Our experience in iGEM</h3><hr/> | ||
| + | <p>We are so very happy to have met people.</p> | ||
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Revision as of 21:48, 5 December 2018
AWARDS
Gold Medal
We are delighted to announced that iGEM Team Toulouse INSA-UPS has won a Gold Medal for its work this summer. This achievement truly shows our investment in the Cerberus project.
Toulouse has succeeded in achieving a Gold Medal each year that it has participated in the iGEM Competition. We are proud to have upheld the reputation of this great team. We hope that our success will inspire future French iGEM Teams to do their very best as well.
Special Prizes
Best Basic Part
A best new part should be fully characterized, have a touch of novelty, demonstrated efficiency, and should inspire the next generation of iGEMers. We feel the Cerberus part matches this statement. It encodes a protein platform with three domains to link very different organic or inorganic molecules. We have proven its strong affinity for cellulose and the functionality of its streptavidin head, but its more impressive asset is its azidophenylalanine head, based on an unnatural amino acid which allows the grafting of any molecule with an alkyne function by click chemistry. The structure and dynamics of Cerberus were methodically modelled. We also demonstrated its efficiency to functionalize cellulose with fluorescence or magnetism, but its potential goes well beyond that since it virtually allows linking any molecule to any other, even cell polymers. We are very curious to see what the next iGEM teams will do with it!
Our convictions were confirmed, as we succeed in winning this special award! We are particularly proud of Cerberus, now certified to be the best dog by a panel of judges.
For more details, check out our Basic Parts page!
Nomination: Best Manufacturing Project
In recognition of our efforts on the project as a whole, we were nominated to receive the Special Prize for Best Manufacturing Project. This means a lot to us, as this track was very popular and featured many great projects!
Our Experience
Our experience in iGEM
We are so very happy to have met people.
No dogs were harmed over the course of this iGEM project.
The whole Toulouse INSA-UPS team wants to thank our sponsors, especially:
And many more. For futher information about our sponsors, please consult our Sponsors page.
The content provided on this website is the fruit of the work of the Toulouse INSA-UPS iGEM Team. As a deliverable for the iGEM Competition, it falls under the Creative Commons Attribution 4.0. Thus, all content on this wiki is available under the Creative Commons Attribution 4.0 license (or any later version). For futher information, please consult the official website of Creative Commons.
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