Difference between revisions of "Team:Newcastle/Results"
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<h7 class="CHR">Background Information</h7> | <h7 class="CHR">Background Information</h7> | ||
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<p class="CHR"> All three selected chromoproteins were made and submitted to the iGEM registry by the Uppsala 2013 team. </p> | <p class="CHR"> All three selected chromoproteins were made and submitted to the iGEM registry by the Uppsala 2013 team. </p> | ||
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<p class="CHR"> All three proteins have significant sequence homologies with proteins in the GFP family. </p> | <p class="CHR"> All three proteins have significant sequence homologies with proteins in the GFP family. </p> | ||
| − | <h8> BBa_K1033929 – aeBlue | + | <p class="CHR"><h8> BBa_K1033929 – aeBlue</p> |
<p class="CHR"> The aeBlue protein is a blue chromoprotein extracted from the basal disk of a beadlet anemone Actinia equine. It was first extracted and characterized by Shkrob et al. 2005 under the name aeCP597 and codon optimised for E coli by Bioneer Corp. The protein has an absorption maximum at 597nm and a deep blue colour visible to the naked eye. The protein aeBlue has significant sequence homologies with proteins in the GFP family. The coding sequence for this protein was originally submitted to the registry as BBa_K1033916 by the 2012 Uppsala iGEM team. </p> | <p class="CHR"> The aeBlue protein is a blue chromoprotein extracted from the basal disk of a beadlet anemone Actinia equine. It was first extracted and characterized by Shkrob et al. 2005 under the name aeCP597 and codon optimised for E coli by Bioneer Corp. The protein has an absorption maximum at 597nm and a deep blue colour visible to the naked eye. The protein aeBlue has significant sequence homologies with proteins in the GFP family. The coding sequence for this protein was originally submitted to the registry as BBa_K1033916 by the 2012 Uppsala iGEM team. </p> | ||
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| + | <h7 class="CHR">Design Stage</h7> | ||
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Revision as of 12:36, 13 October 2017
Our Experimental ResultsClick elements of the diagram below to see results for each section of our project.
Alternatively, click here to see a list of our experiments and results. Want to learn more about our framework (above)? Head over to our description page! |
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Biochemcial Adaptor Modules: The ResultsSarcosine Oxidase (Glyphosate to Formaldehyde)BioBricks used: BBa_0123456 (New), BBa_7890123 (Team_Name 20XX)
Diagrammatic Overview: This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. |
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Detector Modules: The ResultsSynthetic Promoter LibraryBioBricks used: BBa_0123456 (New), BBa_7890123 (Team_Name 20XX)
Diagrammatic Overview: This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. Arsenic BiosensorBioBricks used: BBa_0123456 (New), BBa_7890123 (Team_Name 20XX)
Diagrammatic Overview: This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. Psicose Biosensor (Paris-Every Collaboration)BioBricks used: BBa_0123456 (New), BBa_7890123 (Team_Name 20XX)
Diagrammatic Overview: This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. |
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Processor Modules: The ResultsFim Standby SwitchBioBricks used: BBa_0123456 (New), BBa_7890123 (Team_Name 20XX)
Diagrammatic Overview: This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. Signal TunersBioBricks used: BBa_0123456 (New), BBa_7890123 (Team_Name 20XX)
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Reporter Modules: The ResultsdeGFPBioBricks used: BBa_0123456 (New), BBa_7890123 (Team_Name 20XX)
Diagrammatic Overview: This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. ChromoproteinsBioBricks used: BBa_K2205016 (New),BBa_K2205017 (New),BBa_K2205018 (New), BBa_K1033915 (Uppsala 2013), BBa_K1033925 (Uppsala 2013), BBa_K1033929 (Uppsala 2013)
Diagrammatic Overview: This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. The Sensynova multicellular biosensor platform has been developed to overcome the limitations identified by our team [hyperlink to human practices] that hamper the success in biosensors 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 E.coli strains in co-culture, allows the switch of possible variances for each module and the production of multiple customised biosensors. [Insert image of modules here] This section of the project is based on testing the modularity of the system by replacing the sfGFP output part of the Sensynova platform design with three different output chromoprotein variants; BBa_K1033929 (aeBlue), BBa_K1033925 (spisPink) and BBa_K1033915 (amajLime). All three selected chromoproteins were made and submitted to the iGEM registry by the Uppsala 2013 team. They were chosen as variants to the sfGFP present in the Sensynova platform as they exhibit of strong colour readily observed in both LB cultures and in agar plates when expressed. All three proteins have significant sequence homologies with proteins in the GFP family. The aeBlue protein is a blue chromoprotein extracted from the basal disk of a beadlet anemone Actinia equine. It was first extracted and characterized by Shkrob et al. 2005 under the name aeCP597 and codon optimised for E coli by Bioneer Corp. The protein has an absorption maximum at 597nm and a deep blue colour visible to the naked eye. The protein aeBlue has significant sequence homologies with proteins in the GFP family. The coding sequence for this protein was originally submitted to the registry as BBa_K1033916 by the 2012 Uppsala iGEM team. |
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Sensynova Framework Testing (IPTG Sensor): The ResultsBioBricks used: BBa_0123456 (New), BBa_7890123 (Team_Name 20XX)
Diagrammatic Overview: This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. |
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