Team:Imperial College London/Temporal Control

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<font face='Calibri' size='4'><b>Engineering Approach to Temporal Control</b></font>
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<font face='Calibri' size='4'><b>Engineering Approach to Module Integration by <u>Temporal Control</u></b></font>
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This temporal control platform showcases our engineering approach in the E.ncapsulator project.
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This <b>temporal control</b> platform showcases our engineering approach in the E.ncapsulator project. It allows us to integrate all our modules in a simple and elegant way.
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We’ve made our entire system <b>modular</b>. Each module can essentially be pictured as a blackbox with one temporal control input and one output. Therefore, each module is linked to the next module by temporal control. Temporal control has allowed us to create a system that can be reused in other projects in synthetic biology. It is in fact a novel engineering approach that is both reusable and elegant.
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We’ve made our entire system <b>modular</b>, where we trigger the succession of events using this control system. Here, we have tackled a drug delivery problem, but this "Black box" approach can be applied to any other system. This is our <b>novel engineering approach</b>, which is extremely <b>reusable</b> in synthetic biology.
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In our cases, the black boxes have been filled up by Module 1: Protein Production, Module 2: Encapsulation and Module 3: Encapsulation.
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<html><a href="https://2009.igem.org/Team:Imperial_College_London/Temporal_Control/Graph#Explanation_of_Timeline
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"><img style="vertical-align:bottom;" width=50px align="left" src="http://i691.photobucket.com/albums/vv271/dk806/II09Learnmore.png"></a></html>&nbsp; About the timeline and its explainations.
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"><img style="vertical-align:bottom;" width=50px align="left" src="http://i691.photobucket.com/albums/vv271/dk806/II09Learnmore.png"></a></html>&nbsp; <b>About the timeline, its explainations, and to view our testing construct.</b>
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==Conclusion==
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Module integration has allowed us to link all our modules together, to create a working network.
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It also allows us to showcase the advantages of <b>synthetic biology</b> as the <b>marriage of engineering with biology</b>. By integrating the engineering principles of reusability and simplicity of system, we have developed this platform to program biologcal systems.
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===Project Tour===
===Project Tour===
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<a href="https://2009.igem.org/Team:Imperial_College_London/Genetic_Circuit"><img width=150px src="http://i691.photobucket.com/albums/vv271/dk806/GeneticCircuitsR.jpg"></a>
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<b><i>For more details of the temporal control of the system, see the tabs below.</i></b>
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===Temporal Control Contents===
===Temporal Control Contents===

Latest revision as of 01:00, 21 October 2009

Contents

II09 Temporal control.pngModule Integration



Engineering Approach to Module Integration by Temporal Control

This temporal control platform showcases our engineering approach in the E.ncapsulator project. It allows us to integrate all our modules in a simple and elegant way.

We’ve made our entire system modular, where we trigger the succession of events using this control system. Here, we have tackled a drug delivery problem, but this "Black box" approach can be applied to any other system. This is our novel engineering approach, which is extremely reusable in synthetic biology.

II09 BlackBox3.png


Timeline of Temporal Control

This timeline shows the sequence of occurrence of these events:



  About the timeline, its explainations, and to view our testing construct.




Conclusion

Module integration has allowed us to link all our modules together, to create a working network.

It also allows us to showcase the advantages of synthetic biology as the marriage of engineering with biology. By integrating the engineering principles of reusability and simplicity of system, we have developed this platform to program biologcal systems.

Project Tour


Temporal Control Contents

Chemoinduction
Autoinduction
Thermoinduction
Wet Lab
Modelling

Mr. Gene   Geneart   Clontech   Giant Microbes