IGEM:Cambridge/2008
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| - | This year, the Cambridge iGEM team is working towards creating an integrated Bacterial Recombinant Artificial Intelligence Network (iBRAIN). Our concept is to model eukaryotic neural behaviour using populations of bacteria. We are looking at two main aspects of this concept: self-organisation using Turing pattern formation, and synaptic signal transduction using voltage output glutamate detection [[iGEM:Cambridge/2008/Concept |<font style="color:#cccccc">(read more...)]] | + | <P align="justify"> |
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| + | This year, the Cambridge iGEM team is working towards creating an integrated Bacterial Recombinant Artificial Intelligence Network (iBRAIN). Our concept is to model eukaryotic neural behaviour using populations of bacteria. We are looking at two main aspects of this concept: self-organisation using Turing pattern formation, and synaptic signal transduction using voltage output glutamate detection | ||
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| + | [[iGEM:Cambridge/2008/Concept |<font style="color:#cccccc">(read more...)]] | ||
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<td width="370"><a href="http://openwetware.org/wiki/IGEM:Cambridge/2008/Notebook/Turing_Pattern_Formation" class="noborder"><img src="http://openwetware.org/images/9/9d/Signalling_button.gif" alt="Signalling" width="363" height="236"></a></td> | <td width="370"><a href="http://openwetware.org/wiki/IGEM:Cambridge/2008/Notebook/Turing_Pattern_Formation" class="noborder"><img src="http://openwetware.org/images/9/9d/Signalling_button.gif" alt="Signalling" width="363" height="236"></a></td> | ||
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| + | [[IGEM:Cambridge/2008/PresentationOutline | <font face="verdana" style="color:#ffffff"> '''Poster & Presentation Outline''' </font>]] | ||
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<td><a href="http://www.finnzymes.com/"><img src="http://www.gen.cam.ac.uk/Images/logos/iGEMsponsors/finnzymes.jpg" alt="Finnzymes" width="131" height="43"></a></td> | <td><a href="http://www.finnzymes.com/"><img src="http://www.gen.cam.ac.uk/Images/logos/iGEMsponsors/finnzymes.jpg" alt="Finnzymes" width="131" height="43"></a></td> | ||
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| - | <td> | + | <td><a href="http://www.dna20.com/"><img src="http://openwetware.org/images/8/88/Dna20_logo.jpg" alt="DNA 2.0" width="132" height="66" /></a></td> |
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Current revision
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This year, the Cambridge iGEM team is working towards creating an integrated Bacterial Recombinant Artificial Intelligence Network (iBRAIN). Our concept is to model eukaryotic neural behaviour using populations of bacteria. We are looking at two main aspects of this concept: self-organisation using Turing pattern formation, and synaptic signal transduction using voltage output glutamate detection
(read more...)
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