User:Vincent Rouilly/sandbox/Project IGEM Page: Difference between revisions
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| width="20%" style="background:#CCE5FF"| <center>[[Image:Oscillator Icon.PNG|100px|center]] </center> | | width="20%" style="background:#CCE5FF"| <center>[[Image:Oscillator Icon.PNG|100px|center]] </center> | ||
| style="background:#CCE5FF" colspan="3"| <center><big><u>'''Our Approach: Engineering a Molecular Predation Oscillator'''</u></big><br> | | style="background:#CCE5FF" colspan="3"| <center><big><u>'''Our Approach: Engineering a Molecular Predation Oscillator'''</u></big><br> | ||
For building our biological oscillator, the engineering cycle below was followed.<br> Click on each of the stages of the engineering cycle below in order to find out about the different stages & aspects of the project. </center> | For building our biological oscillator, the engineering cycle below was followed.<br> '''Click on each of the stages of the engineering cycle below in order to find out about the different stages & aspects of the project. '''</center> | ||
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==Secondary Projects== | ==Secondary Projects== |
Revision as of 12:37, 29 October 2006
Imperial College London iGEM 2006
Oscillators are a fundamental building block in many engineering fields and are a widespread phenomenon in biology. Building a biological oscillator is thus a crucial step forward in the field of Synthetic Biology. |
Following the design of the oscillator, a full theoretical analysis of the Lotka-Volterra properties was carried out, which promised the successful outcome of oscillations. Additionally, all components as well as the overall oscillator were modelled such that the behaviour of the system could be predicted. Our team successfully built functional parts, thus providing the building block for the final oscillator. All parts created were experimentally tested and their characterization could be used to feedback information into the modelling. |
Main Project
For building our biological oscillator, the engineering cycle below was followed. Click on each of the stages of the engineering cycle below in order to find out about the different stages & aspects of the project. | |||
1) Specifications:
2) Design:
3) Modelling:
4) Implementation:
5) Testing/Validation:
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Secondary Projects
PoPs Blocker | Biological to Electrical Interface |
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Characteristics
+ link to OWW |
We also worked on a Biosensor for measuring AHL concentrations in order to establish a Biological to Electrical Interface this summer.
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Our Contribution to the Registry
Our Open Documentation
Events & Activities |
In the Wetlab
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Education
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Entertainment |
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The Team and Acknowledgements
Undergrads |
Advisors
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Acknowledgements
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Funding
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