Team:Imperial College/Summary

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Summer Summary

This page will include...

Genetic diagrams, engineering cycle, overview of modelling, overview of major results, contributions etc.

Basically just an overview of our project progress and results, with a section detailing how we achieved a Gold medal!


Our Approach

Genetic circuit design goes here - possibly a little blurb about the engineering cycle too... \:

Circuit picture, etc.


Dry Lab Overview

Basically our dry lab team concentrated on characterising the chassis. In the dry lab section you'll find pages on the genetic circuit, growth curve and motility analysis from our project; this section will give a brief brief overview of each area (no pictures?). It will also include (in the motility analysis part) a movie (y/n?) of the motility response of B. subtilis with an inducible EpsE gene BioBricked in.

Genetic Circuit

Blahblahblah blahblah blah.

Growth Curve

Yadayadayada yadayada yada.

Motility Analysis

Rabblerabblerabble rabblerabble rabble.


Wet Lab Overview

The wet lab team was responsible for Designing the constructs and setting up the cloning strategy to get us from the starting parts to the finished system. We were also responsible for designing and BioBricking the starting parts, of course, and designing and implementing the integration brick technique. This section shows some of the major results that came from the wet lab over the summer. Motility results can go in the dry lab overview above.

Stuff


Achievements
  • Helped Bristol by sending them a mini-iGEM project: Chemotactic dot-to-dot with information on quorum sensing and directed movement
  • Helped Bristol by sending them a part (BBa_J37015) from our 2007 stock which was an empty vector in the Registry
  • Developed integration bricks, to allow devices to be constructed that can then be excised and planted into B. subtilis
  • Layed the groundwork for future teams to work with B. subtilis by BioBricking promoters, RBSs, terminators and so on and characterising them
  • Showed that expansion into other organisms is a definite possibility!




Of course, that's a very simplified description of our project. We expanded upon our project by looking into possible areas for real-world application; for a case-study of such an implementation check out how our project fits in with >>> Biocouture >>>