Materials and Methods
Constructs and strains
All constructs used were transformed into NEB 10β cells. The constructs I20260 as well as B0015 were taken directly from the iGEM 2014 distribution plates. The constructs J23101.E0240 as well as J23115.E0240 were made using the [http://parts.igem.org/Help:Assembly/3A_Assembly 3A Assembly]. Therefore, the subparts J23101, J23115 as well as E0240 were transformed directly from the 2014 distribution plates into NEB 10β cells. Afterwards the plasmids were recovered using the illustra plasmidPrep Mini Spin Kit. The purified plasmids J23101 and J23115 were cut with the restriction enzymes EcoRI and SpeI, while E0240 was cut with XbaI and PstI. The restricted plasmids were then ligated together using the T4 DNA Ligase. Afterwards, the ligation product was introduced into the pSB1C3 linearized backbone provided by iGEM headquarters with the 2014 distribution which we had also cut with EcoRI and PstI. All restrictions and ligations were performed using enzymes and buffers of the [http://shop2.neb-online.de/4DCGI/ezshop?action=Direktanzeige&Artikelnummer=NEBIGEM1%40&WorldNr=01&ButtonName=website&skontaktid=1055557&skontaktkey=RrbLvNPZxLRIFbyyyGOZambWfZKxFK NEB iGEM Kit]). The final product was once again transformed into NEB 10β cells.
The correct identity of the resulting constructs were confirmed by sequencing. The sequencing data (consensus sequences) can be found here.
Note: We used the mutated version of J23115 as sent out by the iGEM headquarters. The mutation makes J23115 effectively the same promoter as K823012. We will still refer to the promoter as J23115 though, to keep it more easily recognizable with the other Interlab Study results.
Inoculation and Cultivation
The cultivation of our bacteria was performed in 500 mL shake flasks filled with 50 mL LB medium. The cultures were kept at 37 °C and 300 rpm shaking frequency. Appropiate antibiotics were added to each media (kanamycin for I20260, chloramphenicol for B0015, J23101.E0240 and J23115.E0240). Both antibiotics were added from a 1000X stock stored at -20 °C for a final concentration of 35 µg/mL chloramphenicol and 50 µg/mL kanamycin, respectively.
The precultures were inoculated from the same cryo stocks. They were cultivated for 16 hours and then sampled for OD measurement with a spectrophotometer. Then 2 mL of each preculture were centrifuged (5 minutes, 6000 g) and then washed twice with PBS buffer. Afterwards, all cultures were inoculated to have the same starting OD. Inoculations were carried out under sterile conditions at the clean bench.
Sampling
To draw samples, the shake flasks were taken out of the 37 °C room and brought onto a nearby bench. 3 mL of sample were taken out next to a Bunsen burner flame and pipetted into three 2 mL cuvettes. As soon as all samples were taken the flasks were taken back onto the shaker in the 37 °C room. The whole process of taking samples for all 12 flasks (3 biological replicates for each construct) took 5 minutes and samples were taken every 2 hours.
After 4 hours, we had to dilute the samples with LB medium in a ratio of 1:4, and from the 6th to 18th hour we had to dilute in a ratio of 1:9.
After the measurement of OD in the spectrometer, 100 µL of each sample were taken out and put on a 96-well plate (Thermo microfluor 1, flat-bottom, black) to measure fluorescence.
Each measurement occured in a technical triplicate, resulting in 36 different samples being processed in every sampling step.
Measurement of OD using a spectrophotometer
For OD measurement, the [http://www.unicosci.com/spectro/1200detail.htm Unico Spectrophotometer 1201 of Fisher Bioblock Scientific] was used. The measurement was taken at 600 nm and we used pure LB medium (from the same batch as the medium used for cultivation) as our blank. We only measured OD up to an absorbance of 0.8. At a higher OD, we diluted the sample with LB medium (again from the same batch as our cultivation medium). Dilution was done by first filling the cuvettes with the LB medium, and then adding our cultivation sample. Subsequently, each cuvette was vortexed thoroughly. The solution was allowed to settle before measurement.
Measurement of fluorescence using a microplate reader
Measurement of fluorescence was performed using the [http://www.biotek.com/products/microplate_detection/synergymx_monochromator_based_multimode_microplate_reader.html Synergy Mx from BioTek] with the Gen5 software, using the following parameters:
Parameter | value
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Software version | 2.1.2014
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Reader Type | Synergy Mx
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Read | GFP 100
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Measurement | fluorescence endpoint
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Measurement range | full plate
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Filter | filter set 1
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Excitation | 496/9.0
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Emission | 516/9.0
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Gain | 100
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Read Speed | normal
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Delay | 100 msec
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Measurement s/data point | 10
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Read height | 8 mm
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As for the OD measurement, we used LB medium as our blank. Since samples for fluorescence measurement were acquired from the cuvettes for the OD measurement, sample processed in plate reader had the same dilutions.
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