Difference between revisions of "Team:Newcastle/MedalRequirements"

Line 1: Line 1:
{{Newcastle5}}
+
{{Newcastle6}}
 
<html>
 
<html>
  

Revision as of 16:16, 28 October 2017

spacefill

Medal

Criteria

Explanation
Bronze All must be met
1 Register and Attend – Register for iGEM and attend the Giant Jamboree. Newcastle iGEM team has registered and will be attending the Giant Jamboree in Boston.
2 Deliverables – Meet all the deliverables on the Competition Deliverables page A team wiki, poster, presentation and project attributions were made. The safety form, judging form and registry pages were completed.
3 Attribution – Create a page on your team wiki with clear attribution of each aspect of your project. Our Attributions page is here.
4 Characterise/Contribution – Participate in the Interlab Measurement Study and/or improve the characterisation of an existing BioBrick Part or Device and enter this information on that part's Main Page in the Registry. Our team participated in the Interlab Measurement Study.
Silver All must be met
1 Validated Part/Validated Contribution – Convince the judges that at least one new BioBrick Part of your own design that is central to your project works as expected.
2 Collaboration – Convince the judges you have significantly worked with another registered iGEM team in a meaningful way. We have collaborated with several teams on various aspects of the project. Details of these collaborations are here.
3 Human Practices – Convince the judges you have thought carefully and creatively about whether your work is safe, responsible and good for the world. Link.
Gold At least 2 must be met
1 Integrated Human Practices – Expand on your silver medal activity by demonstrating how you have integrated the investigated issues into the design and/or execution of your project. Link.
2 Improve a previous part or project – Improve the function of an existing BioBrick Part or existing iGEM project and display your achievement on your wiki.

BBa_K2205026 - pSB1A51 (Promoter Library Screening Plasmid) - Improvement over BBa_J61002

  • Transcriptional insulation added before promoter cloning site (PCS)
  • lac operator added after PCS for additional characterisation ability
  • RBS cloning site added to allow testing of promoters with any desired RBS
  • mRFP1 CDS replaced with the CDS for the more fluorescent sfGFP
  • Promoters can easily be removed from pSB1A51 and assembled into another plasmid/with another BioBrick using BioBrick assembly

BBa_K2205005 - Fim Standby Switch - Improvement over BBa_K1632007

  • Replaced E0040 CDS with eforRed chromoprotein CDS to allow easy visualisation with the naked eye
  • Added RhlI CDS on the reverse strand upstream of the flipable promoter to allow modular addition of secondary reporter CDSs (can be added within same cell, or in a different cell of a multicellular communiuty)
    • Provides a 'dual reporter' which produces eforRed in its 'default' state (i.e. no signal detected), and a protein of choice in its 'on' state (i.e. when a signal is detected)

3 Model your project – Convince the judges your project's design and/or implementation is based on insight you have gained from modelling. We have modelled various aspects of our project, creating Simbiotics and COPASI models of the sensor development platform and a Design of Experiments model to optimise the cell free systems in our project. Details can be found here.
4 Demonstrate your work – Convince the judges that your project works. We have produced a functional multicellular biosensor based on bacterial quorum sensing. Each part has been tested and characterised singularly. The co-culture of the 3 bacterial types are proved to form a working biosensing device. More details can be found here.