Difference between revisions of "Team:Newcastle/Results"

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           <h2 style="font-family: Rubik; text-align: left; margin-top: 1%"> Rationale and Aim </h2>
 
           <h2 style="font-family: Rubik; text-align: left; margin-top: 1%"> Rationale and Aim </h2>
 
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     <p>The Sensynova multicellular biosensor platform has been developed to overcome the <a href="https://2017.igem.org/Team:Newcastle/HP/Silver">limitations identified by our team</a> that hamper the success in biosensor development. One of these limits regards the lack of modularity and reusability of the various components. Our platform design, based on the expression of three main modules (Detector, Processor and Output) by three <i>E.coli </i> strains in co-culture, allows the switch of possible variances for each module and the production of multiple customised biosensors.
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     <p>The Sensynova multicellular biosensor platform has been developed to overcome the <a href="https://2017.igem.org/Team:Newcastle/HP/Gold_Integrated">limitations identified by our team</a> that hamper the success in biosensor development. One of these limits regards the lack of modularity and reusability of the various components. Our platform design, based on the expression of three main modules (Detector, Processor and Output) by three <i>E.coli </i> strains in co-culture, allows the switch of possible variances for each module and the production of multiple customised biosensors.
 
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           This section of the project is based on testing the modularity of the system by implementing the formaldehyde biosensor as a variant to the detector module of the Sensynova platform.</p>
 
           This section of the project is based on testing the modularity of the system by implementing the formaldehyde biosensor as a variant to the detector module of the Sensynova platform.</p>

Revision as of 18:12, 1 November 2017

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Our Experimental Results


Below is a diagram of our Sensynova Framework. Clicking on each part of the framework (e.g. detector modules) links to the relevant results.

Alternatively, at the bottom of this page are tabs which will show you results for every part of the project



Framework

Framework Chassis

Biochemical Adaptor

Target

Detector Modules

Multicellular Framework Testing

C12 HSL: Connector 1

Processor Modules

Framework in Cell Free Protein Synthesis Systems

C4 HSL: Connector 2

Reporter Modules



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