Team:Calgary/Project/Achievements
From 2013.igem.org
(Difference between revisions)
Iaingeorge (Talk | contribs) |
Iaingeorge (Talk | contribs) |
||
Line 13: | Line 13: | ||
<li>Designed a modular platform system which allows the interchangeability of a DNA binding protein, creating the potential for multiple different DNA sensors to be developed from the framework we have submitted</li> | <li>Designed a modular platform system which allows the interchangeability of a DNA binding protein, creating the potential for multiple different DNA sensors to be developed from the framework we have submitted</li> | ||
- | <li>Designed a DNA binding TALE which binds specifically to regions of the | + | <li>Designed a DNA binding TALE which binds specifically to regions of the Shiga toxin gene <i>stx2</i> which are conserved amongst a wide variety of pathogenic <i>E. coli</i></li> |
<li>Submitted parts for an engineered ferritin gene, a biological nanoparticle capable of both scaffolding and stabilizing proteins, as well as carrying out catalytic reactions to act as a reporter</li> | <li>Submitted parts for an engineered ferritin gene, a biological nanoparticle capable of both scaffolding and stabilizing proteins, as well as carrying out catalytic reactions to act as a reporter</li> | ||
Line 19: | Line 19: | ||
<li>Designed, constructed, expressed, and successfully purified proteins for both the DNA sensing elements of our prototype as well as the scaffolding and reporter components of the system</li> | <li>Designed, constructed, expressed, and successfully purified proteins for both the DNA sensing elements of our prototype as well as the scaffolding and reporter components of the system</li> | ||
- | <li>Characterized the | + | <li>Characterized the kinetic properties and ability of the ferritin protein to act as a reporter</li> |
+ | |||
+ | <li>Characterized the ability of our purified ferritin produced from our construct to act as a reporter in solution as well as on a nitrocellulose membrane</li> | ||
- | |||
<li>Created multiple versions of a prototype of our final system</li> | <li>Created multiple versions of a prototype of our final system</li> | ||
- | <li>Performed modelling to inform both the quantitative | + | <li>Performed modelling to inform both the quantitative inputs and construction of our system, as well as visual modelling in order to communicate how our system works spatially</li> |
<li>3D printed components of our system in order to better understand how our parts would look at a molecular basis</li> | <li>3D printed components of our system in order to better understand how our parts would look at a molecular basis</li> | ||
Line 51: | Line 52: | ||
<li>Worked with Paris-Bettencourt in defining biosensors for the iGEM community</li> | <li>Worked with Paris-Bettencourt in defining biosensors for the iGEM community</li> | ||
- | |||
- | |||
<li>Reviewed all previous iGEM projects in order to categorize which developed biosensors</li> | <li>Reviewed all previous iGEM projects in order to categorize which developed biosensors</li> | ||
<li>Consolidated this information into an easy to use database (SensiGEM) in order to allow for the community to search all previous sensors to gain useful insight and find useful parts when developing future projects</li> | <li>Consolidated this information into an easy to use database (SensiGEM) in order to allow for the community to search all previous sensors to gain useful insight and find useful parts when developing future projects</li> | ||
+ | |||
+ | <li>Worked in Consort Alberta over the summer in order to develop a system for detecting xylene contamination in soils</li> | ||
</ul> | </ul> | ||
Line 66: | Line 67: | ||
<li>Continued our collaboration with our local science centre, Telus Spark, in order to educate our community about synthetic biology and create activities which would bring the science to a level which would allow for education through something fun</li> | <li>Continued our collaboration with our local science centre, Telus Spark, in order to educate our community about synthetic biology and create activities which would bring the science to a level which would allow for education through something fun</li> | ||
- | <li>Brought basic principles of synthetic biology to our city as a whole through our participation in running activites at our cities Beakernight event</li> | + | <li>Brought basic principles of synthetic biology to our city as a whole through our participation in running activites at our cities <a href=https://2013.igem.org/Team:Calgary/Outreach/GenomeAlberta><span class="yellow">Beakernight event</span></a></li> |
- | <li>Gave the world an insight into the daily life of an iGEMmer as well as sharing synthetic biology through blog posts written for Genome Alberta</li> | + | <li>Gave the world an insight into the daily life of an iGEMmer as well as sharing synthetic biology through <a href=https://2013.igem.org/Team:Calgary/Outreach/GenomeAlberta><span class="yellow">blog posts</span></a> written for Genome Alberta</li> |
<li>Helped to start Consort, Albertas first high school iGEM team along with the <a href=https://2013.igem.org/Team:Calgary_Entrepreneurial><span class="yellow">Calgary Entrepreneurial team</span></a>, and helped them to bring home the human practices award</li> | <li>Helped to start Consort, Albertas first high school iGEM team along with the <a href=https://2013.igem.org/Team:Calgary_Entrepreneurial><span class="yellow">Calgary Entrepreneurial team</span></a>, and helped them to bring home the human practices award</li> |
Revision as of 03:49, 28 September 2013
Achievements
Achievements
For our Sensor we...
- Designed a modular platform system which allows the interchangeability of a DNA binding protein, creating the potential for multiple different DNA sensors to be developed from the framework we have submitted
- Designed a DNA binding TALE which binds specifically to regions of the Shiga toxin gene stx2 which are conserved amongst a wide variety of pathogenic E. coli
- Submitted parts for an engineered ferritin gene, a biological nanoparticle capable of both scaffolding and stabilizing proteins, as well as carrying out catalytic reactions to act as a reporter
- Designed, constructed, expressed, and successfully purified proteins for both the DNA sensing elements of our prototype as well as the scaffolding and reporter components of the system
- Characterized the kinetic properties and ability of the ferritin protein to act as a reporter
- Characterized the ability of our purified ferritin produced from our construct to act as a reporter in solution as well as on a nitrocellulose membrane
- Created multiple versions of a prototype of our final system
- Performed modelling to inform both the quantitative inputs and construction of our system, as well as visual modelling in order to communicate how our system works spatially
- 3D printed components of our system in order to better understand how our parts would look at a molecular basis
For our Human Practices we...
- Created a dialogue with multiple industry experts and potential users in the field where our product could be applied
- Visited all steps of the processing chain in order to better understand the culture and practices of the industry
- Used discussions with our stakeholders to inform the design of our final system from inception towards completion so that it puts industry culture and needs first and foremost
- Designed our system with considerations towards safety, within our laboratory and in the implementation of the final prototype
- Thought extensively about the implications of our system in terms of the profound impact on community health and economics if false positives and negatives were to occur, and have included both positive and negative controls in our system to mitigate these implications
For our Collaboration we...
- Worked with Paris-Bettencourt in defining biosensors for the iGEM community
- Reviewed all previous iGEM projects in order to categorize which developed biosensors
- Consolidated this information into an easy to use database (SensiGEM) in order to allow for the community to search all previous sensors to gain useful insight and find useful parts when developing future projects
- Worked in Consort Alberta over the summer in order to develop a system for detecting xylene contamination in soils
For our Outreach we...
- Continued our collaboration with our local science centre, Telus Spark, in order to educate our community about synthetic biology and create activities which would bring the science to a level which would allow for education through something fun
- Brought basic principles of synthetic biology to our city as a whole through our participation in running activites at our cities Beakernight event
- Gave the world an insight into the daily life of an iGEMmer as well as sharing synthetic biology through blog posts written for Genome Alberta
- Helped to start Consort, Albertas first high school iGEM team along with the Calgary Entrepreneurial team, and helped them to bring home the human practices award