Team:Aachen/Project/2D Biosensor
From 2014.igem.org
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<span class="anchor" id="biosensordevelopment"></span> | <span class="anchor" id="biosensordevelopment"></span> | ||
- | {{Team:Aachen/FigureFloat|Aachen_ILOV_GFP_HM_1,5h.png|title=iLOV and GFP in the Gel Doc<sup>TM</sup>|subtitle=Sensor cells producing iLOV (A) and GFP (B) 1.5 h after induction.|left|width=500px}} | + | {{Team:Aachen/FigureFloat|Aachen_ILOV_GFP_HM_1,5h.png|title=iLOV and GFP in the Gel Doc<sup>TM</sup>|subtitle=Sensor cells producing iLOV (K1319042, A) and GFP (B) 1.5 h after induction.|left|width=500px}} |
=== Equipment and medium selection === | === Equipment and medium selection === | ||
- | Our first approach (before developing our own device) was to use the Molecular Imager® Gel Doc™ XR+ from BIO-RAD in our lab to detect fluorescence. This device uses UV and white light illuminators. However, only two different filters were available for the excitation light wavelength, which resulted in very limited possibilities for the excitation of fluorescent molecules. For example, it was possible to detect the expression of iLOV in our sensor chips, but not the expression of GFP. Hence, the '''Gel Doc™ was not suitable for our project'''. | + | Our first approach (before developing our own device) was to use the Molecular Imager® Gel Doc™ XR+ from BIO-RAD in our lab to detect fluorescence. This device uses UV and white light illuminators. However, only two different filters were available for the excitation light wavelength, which resulted in very limited possibilities for the excitation of fluorescent molecules. For example, it was possible to detect the expression of iLOV (K1319042) in our sensor chips, but not the expression of GFP. Hence, the '''Gel Doc™ was not suitable for our project'''. |
{{Team:Aachen/FigureFloat|Aachen_Chip_medium_geldoc.png|title=Differend medium in the Gel Doc™|subtitle=complex media exhibited high background fluorescence while less back- ground fluorescence was observed with the minimal media (HM, M9, NA).|right|width=500px}} | {{Team:Aachen/FigureFloat|Aachen_Chip_medium_geldoc.png|title=Differend medium in the Gel Doc™|subtitle=complex media exhibited high background fluorescence while less back- ground fluorescence was observed with the minimal media (HM, M9, NA).|right|width=500px}} | ||
{{Team:Aachen/FigureFloat|Aachen_5days_K131026_neb_tb_1,5h.jpg |title=Testing our chips' shelf-life|subtitle= Chips of [http://parts.igem.org/Part:BBa_K131026 K131026] in NEB were stored five days at 4°C. The right chip was induced with 0.2 µL of 500 µg/mL HSL and an image was taken after 1.5 h.|left|width=500px}} | {{Team:Aachen/FigureFloat|Aachen_5days_K131026_neb_tb_1,5h.jpg |title=Testing our chips' shelf-life|subtitle= Chips of [http://parts.igem.org/Part:BBa_K131026 K131026] in NEB were stored five days at 4°C. The right chip was induced with 0.2 µL of 500 µg/mL HSL and an image was taken after 1.5 h.|left|width=500px}} | ||
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The result was a clear replication of the success of the plate reader experiment. The induced chip showed a clear fluorescence response eminating from the center, where the induction with HSL took place. This demonstrated the ability of not only our sensor chip technology but also our measurement device ''WatsOn to successfully'' detect 3-oxo-C{{sub|12}}-HSL. | The result was a clear replication of the success of the plate reader experiment. The induced chip showed a clear fluorescence response eminating from the center, where the induction with HSL took place. This demonstrated the ability of not only our sensor chip technology but also our measurement device ''WatsOn to successfully'' detect 3-oxo-C{{sub|12}}-HSL. | ||
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{{Team:Aachen/FigureFloat|Aachen_K131026_Pseudomonas_aeruginosa_detection.gif|title=Detection of ''Pseudomonas aeruginosa'' with K131026|subtitle=Direct detection of ''Pseudomonas aeruginosa'' on sensor chips based on [http://parts.igem.org/Part:BBa_K131026 K131026].|width=480px}} | {{Team:Aachen/FigureFloat|Aachen_K131026_Pseudomonas_aeruginosa_detection.gif|title=Detection of ''Pseudomonas aeruginosa'' with K131026|subtitle=Direct detection of ''Pseudomonas aeruginosa'' on sensor chips based on [http://parts.igem.org/Part:BBa_K131026 K131026].|width=480px}} | ||
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===Detecting ''Pseudomonas aeruginosa'' with K131026 in our Sensor Chip with ''WatsOn''=== | ===Detecting ''Pseudomonas aeruginosa'' with K131026 in our Sensor Chip with ''WatsOn''=== | ||
After establishing the successful detection of 3-oxo-C{{sub|12}}-HSLs with our sensor chips the next step was to detect living cells of ''Pseudomonas aeruginosa'' with our measurement device ''WatsOn''. Therefore sensor chips based on [http://parts.igem.org/Part:BBa_K131026 K131026] were prepared and the right chip was induced with 0.2 µL of a ''Pseudomonas aeruginosa'' culture while the left chip was not induced (Detection of 3-oxo-C12 HSL with K131026, displayed below). On the induced chip, a clear fluorescence signal was visible in response to ''P. aeruginosa''. The fluorescence signal emerged outward from the induction point and showed a significant difference to the non-induced chip. The results clearly demonstrate the ability of our sensor chip technology and our measurement device ''WatsOn'' to detect ''P. aeruginosa''! | After establishing the successful detection of 3-oxo-C{{sub|12}}-HSLs with our sensor chips the next step was to detect living cells of ''Pseudomonas aeruginosa'' with our measurement device ''WatsOn''. Therefore sensor chips based on [http://parts.igem.org/Part:BBa_K131026 K131026] were prepared and the right chip was induced with 0.2 µL of a ''Pseudomonas aeruginosa'' culture while the left chip was not induced (Detection of 3-oxo-C12 HSL with K131026, displayed below). On the induced chip, a clear fluorescence signal was visible in response to ''P. aeruginosa''. The fluorescence signal emerged outward from the induction point and showed a significant difference to the non-induced chip. The results clearly demonstrate the ability of our sensor chip technology and our measurement device ''WatsOn'' to detect ''P. aeruginosa''! | ||
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Latest revision as of 03:43, 18 October 2014
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