Summer Summary
| Design
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In order to achieve our specifications of design previously described, we require the following devices;
- Light sensing device - Converting a light input into a PoPS output,
- Biomaterial production device- Converting a PoPS input into an output of biomaterial production,
- Motility Control device - Converting a PoPS input into an output of motility arrest,
- Integration device - To allow integration and selection of our genetic constructs and devices into B,subtilis,
Each of these constructs makes up the final device which is shown below:
(AB is our antibiotic resistance cassette, ytvA is the gene controlling the light-sensing pathway, SB is the biomaterial, epsE the clutch and the 5' and 3' sections are integration sites. Light-inducible promoters are labelled with an 'L')
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| Modeling - Overview
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Growth Curve
Genetic Circuit
Motility Analysis
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| Implementation
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Following the design stage of our project we moved on to the implementation stage. This involved construction of a cloning strategy, construction of our biobricks and transformation and characterisation of these biobricks in B.subtilis. For more information on this aspect of the project please see the Wet Lab Hub
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| Testing
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The testing and validation of our project can be split into three main areas;
- Work with B.subtilis - Including characterisation of growth curves and transformation,
- Characterisation and control of motility
- Production of Biomaterials in B.subtilis
Please see the Results Page for more information on the key results from the testing and validation.
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| Achievements
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Here is a summary of the achievements of the Imperial College 2008 team:
- Submitted x..number of documented parts to the registry,
- Characterized and improved the existing part.....,
- 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!
- 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
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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 >>>
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