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Team:Glasgow/test
From 2011.igem.org
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<h2>System Design</h2> | <h2>System Design</h2> | ||
| - | <p>The system we have designed for iGEM 2011 takes advantage of the modular nature of synthetic biology and combines relatively few parts to create a complex and highly regulated system of gene expression. This diagram shows how the biobricks we intent to create can be organised to allow for the bio-photo-lithography process. Highlighting the devices will display the biobrick constructs we have design to perform the device functions.</p> | + | <p>The system we have designed for iGEM 2011 takes advantage of the modular nature of synthetic biology and combines relatively few parts to create a complex and highly regulated system of gene expression. This diagram shows how the biobricks we intent to create can be organised to allow for the bio-photo-lithography process. <b>Highlighting the devices will display the biobrick constructs we have design to perform the device functions; clicking the tabs will show the devices used for the selected stage.</b></p> |
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Revision as of 10:16, 2 September 2011
System Design
The system we have designed for iGEM 2011 takes advantage of the modular nature of synthetic biology and combines relatively few parts to create a complex and highly regulated system of gene expression. This diagram shows how the biobricks we intent to create can be organised to allow for the bio-photo-lithography process. Highlighting the devices will display the biobrick constructs we have design to perform the device functions; clicking the tabs will show the devices used for the selected stage.
