Team:Aachen/Interlab Study/Hardware
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= Commercial Hardware = | = Commercial Hardware = | ||
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+ | For the interlab study we used several devices to measure optical density (OD) and fluorescence. | ||
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{{Team:Aachen/BlockSeparator}} | {{Team:Aachen/BlockSeparator}} | ||
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<center> | <center> | ||
<iframe src="https://2014.igem.org/Team:Aachen/Notebook/Engineering/Cuvette3D?action=render | <iframe src="https://2014.igem.org/Team:Aachen/Notebook/Engineering/Cuvette3D?action=render | ||
- | " width=500px height=500px></iframe> | + | " width=500px height=500px frameBorder="0"></iframe> |
</center> | </center> | ||
</html> | </html> | ||
- | This cuvette holder can be used for both devices: the | + | This cuvette holder can be used for both devices: the hole in the bottom is used for fluorescence measurement, the two opposite hole are used for the light sensor and the LED for optical density measurement respectively. |
=== Hardware Requirements === | === Hardware Requirements === | ||
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* Arduino UNO R3 ''(or equivalent)'' | * Arduino UNO R3 ''(or equivalent)'' | ||
- | * breadboard | + | * breadboard and jumperwires ''(or: circuit board)'' |
- | * bluetooth | + | * bluetooth modem ''optional'' |
* cuvette holder [https://2014.igem.org/Template:Team:Aachen/cuvette.stl?action=raw stl file download] | * cuvette holder [https://2014.igem.org/Template:Team:Aachen/cuvette.stl?action=raw stl file download] | ||
- | * | + | * TSL235R-LF light to frequency sensor |
* LED for optical density (for 600nm we recommend: DIALIGHT - 550-2505F ) | * LED for optical density (for 600nm we recommend: DIALIGHT - 550-2505F ) | ||
* LED for fluorescence (any 450nm blue works for iLOV, 480nm for wtGFP ) | * LED for fluorescence (any 450nm blue works for iLOV, 480nm for wtGFP ) | ||
+ | * [http://shop.leefiltersusa.com/Swatch-Book-Designers-Edition-SWB.htm Filters] Medium Yellow 010 and Twickenham Green 736 | ||
- | The case is from acrylic glass. The construction plan can be downloaded from [https://2014.igem.org/Team:Aachen | + | The case is from acrylic glass. The construction plan can be downloaded from [https://2014.igem.org/Team:Aachen iGEM]. |
+ | A detailled instruction is available on [http://instructables.com instructables.com] | ||
== Fluorescence == | == Fluorescence == | ||
- | + | [[File:Aachen_gfp_ecoli_plate_1.jpg|center|thumb|E. coli plate fluorescence|400px]] | |
+ | When measuring fluorescence, two approaches can be followed | ||
+ | * measure the light intensity sent to fluorescence protein, measure returning light intensity and compare | ||
+ | * measure two samples, and detect the increase in light returned | ||
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+ | which follows either an absolute or relative quantification. For most tasks however the relative increase in fluorescence is needed, and therefore this approach is also used for this device. | ||
+ | ''Figure 2'' shows the schematic principle of the fluorescence measurement with our device. | ||
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+ | {{Team:Aachen/Figure|Aachen_gfp_ecoli_plate_1.jpg|alignment=float:center|title=Figure 2|subtitle=Schematics of fluorescence measurement|width=300px}} | ||
=== Characteristic Curve === | === Characteristic Curve === | ||
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+ | An important observation for fluorescence measurement is that the linearity of the measurement highly depends on the chosen light sensor. | ||
+ | If the light sensor is not linear over the spectrum of measurement, linearity would be needed to be corrected by software. Fortunately the characteristic curve of the TSL 235 R shows perfect linearity such that no software correction is needed. | ||
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+ | This needed to be confirmed by measurements. We used an E. coli dilution series to perform this experiment. | ||
+ | ''Figure 3'' shows the recorded values. The linearity clearly can be seen, the regression coefficient of 0.99 also supports this. | ||
== Optical Density == | == Optical Density == |
Latest revision as of 14:38, 27 September 2014
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