Measurement

Part:BBa_K1412999

Designed by: Jielin Chen ,An Chen   Group: iGEM14_XMU-China   (2014-09-02)

GFP generator with J23115

This part consists of Anderson promoter J23115 and GFP generator BBa_E0240. It can be used for characterization of promoter J23115.

Usage and Biology

The absolute activity of BioBrick promoters varies in experimental conditions and measurement instruments. We choose the promoter J23101 as an in vivo reference standard for promoter activity. In order to get the different expression intensity of promoter J23115, we connect the promoter with the same RBS, GFP generator and backbone. Finally we can use the intensity of fluorescent protein as a characterization data to report the expression intensity of different promoter.

Relevent parts:
BBa_K1412924: BBa_J23101 + BBa_E0240 (B0032-E0040-B0015), in the pSB1C3 vector.
BBa_K1412716: BBa_I20260 (J23101-B0032-E0040-B0015) in the pSB3K3 vector.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    INCOMPATIBLE WITH RFC[12]
    Illegal NheI site found at 7
    Illegal NheI site found at 30
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    INCOMPATIBLE WITH RFC[1000]
    Illegal BsaI.rc site found at 706


Experimental data

Verification

胶图验证1.png

Figure 1. Enzyme digestion verification of devices BBa_J23115 + BBa_E0240 and BBa_I20260

1. 1kb Marker;

2. Double restriction enzyme digestion ([http://en.wikipedia.org/wiki/Restriction_enzyme EcoR I] and [http://en.wikipedia.org/wiki/Restriction_enzyme Pst I]) with device BBa_J23115 + BBa_E0240 (constructed by [http://2014.igem.org/Team:XMU-China# XMU-China]);

3. Mono-restriction enzyme digestion ([http://en.wikipedia.org/wiki/Restriction_enzyme Pst I]) with device BBa_J23115 + BBa_E0240 (constructed by [http://2014.igem.org/Team:XMU-China# XMU-China]);

4. Double restriction enzyme digestion ([http://en.wikipedia.org/wiki/Restriction_enzyme EcoR I] and [http://en.wikipedia.org/wiki/Restriction_enzyme Pst I]) with device BBa_I20260 (reconstructed by [http://2014.igem.org/Team:XMU-China# XMU-China]);

5. Mono-restriction enzyme digestion ([http://en.wikipedia.org/wiki/Restriction_enzyme Pst I]) with device BBa_I20260 (reconstructed by [http://2014.igem.org/Team:XMU-China# XMU-China]).

Results and discussion:

As double restriction enzyme digestion generates two target segments, we confirm that device BBa_J23115 + BBa_E0240 is constructed correctly because of the fragment near 1000 bp.


Figure.1. GFP of different device.jpg

Figure 2. GFP of different device

1: BBa_K1412999 in DH5α;

2: BBa_K1412716 in DH5α;

3: BBa_K1412716 (reconstructed by [http://2014.igem.org/Team:XMU-China# XMU-China]) in DH5α;

4: BBa_K1412924 in DH5α.

The bacteria was cultured in the LB medium for 12 hrs at 37℃ shaking at 200 rpm in the table concentrator, then 1 ml bacterium solution was transferred into 1.5 ml centrifuge tube, and was centrifuged at 10000 rcf(g) for 1 min. The supernatant was discarded and the residuals was suspend by [http://en.wikipedia.org/wiki/Phosphate_buffered_saline PBS]. The solution was centrifuged again, and we got the bacteria precipitate as the picture shown in Figure 2. In which we can find that device BBa_K1412924 is greenish in natural light while device BBa_K1412716 (reconstructed by [http://2014.igem.org/Team:XMU-China# XMU-China]) and BBa_K1412716 emit a canary yellow color, and device BBa_K1412999 show the color which is close to white.


Figure.2 GFP of different device under the UV-light.jpg

Figure 3. GFP of different device under the UV-light

1: BBa_K1412924 in DH5α;

2: BBa_K1412716 (reconstructed by [http://2014.igem.org/Team:XMU-China# XMU-China]) in DH5α;

3: BBa_K1412716 in DH5α;

4: BBa_K1412999 in DH5α.

Under UV-light, the bacterium precipitate above can be observed clearly that device BBa_K1412924 can emit strong green fluorescence, while devices BBa_K1412716 (reconstructed by [http://2014.igem.org/Team:XMU-China# XMU-China]) and BBa_K1412716 have weaker green fluorescence, and the green fluorescence from device BBa_K1412999 is the weakest so that we can’t even observe a green pixel.

Measurement

OD-T 999.png
OD-T 924,999,716.png

Figure 4. The plot of optical density versus time

From the plot of optical density versus time, we can conclude that the growth rate of bacteria is become lower with time. We measured the samples three times parallelly, and we can know that the reproducibility of the data is acceptable. When we compare it with BBa_K1412716 and BBa_K1412924, we can get that their growth rate are almost equal.



RFU-T 999.png
RFU-T 924,999,716.png

Figure 5. The plot of RFUs versus time

From the plot of RFUs(relative fluorescent units) versus time, we can conclude that RFUs grow linearly with time. When we compare it with BBa_K1412716 and BBa_K1412924, we can get that the fluoresent expression intensity of BBa_K141299 is lower than BBa_K1412716 and BBa_K1412924.



RFU-OD 999.png
RFU-OD 924,999,716.png

Figure .6 The plot of RFUs versus OD600

From the plot of RFUs versus OD600, we can conclude that RFUs grow linearly with OD600. Because the fluoresent protein expression of each bateria is contain, so when the concentration of bacteria increase, the fluoresent expression increase too. When we compare with BBa_K1412716 and BBa_K1412924, we can get that the fluoresent expression intensity of BBa_K1412999 is lower than BBa_K1412716 and BBa_K1412924.



RFU OD-T 999.png
RFU OD-T 924,999,716.png

Figure 7. The plot of RFUs/OD600 versus time

From the plot of RFUs/OD600 versus time, we know the RFUs/OD600 is a representation of the fluoresent expression intensity of unit bacteria. So we can get that the fluoresent expression intensity of BBa_K1412999 is higher than BBa_K1412716 and BBa_K1412924.

Protocol[1]

1. Transformed BBa_K1412999 into DH5α competent cells, coated plates, grown in incubator for 12 hrs at 37℃.

2. Inoculate a 5 ml cultures of supplemented LB medium and antibiotic (Chloromycetin 50 μg/ml) with single colony from the plate.

3. Cultures were grown in conical flask for 16 hrs at 37℃ with shaking at 200 rpm in the table concentrator.

4. Cultures were diluted 1:100 into three 20 ml fresh LB medium and grown for 3 hrs at 37℃ with shaking at 200 rpm in the table concentrator.

5. Then transfered 650 μl of the culture to a 1.5 ml centrifuge tube, centrifuged and washed twice with phosphate-buffered saline ([http://en.wikipedia.org/wiki/Phosphate_buffered_saline PBS], pH 7.4) to minimize the background fluorescence from the medium.

6. The washed cells were suspended in [http://en.wikipedia.org/wiki/Phosphate_buffered_saline PBS] and diluted to bring the cells into an appropriate concentration range (2–5 times) before taking fluorimeter measurements.

7. Measure the fluorescence and absorbance:

(1)Fluorescence:

  • Device: [http://www.moleculardevices.com/systems/microplate-readers/multi-mode-readers/spectramax-m-series-multi-mode-microplate-readers SpectraMax+M5 microplate reader], 96-well plates.
  • Wavelengths: 501 nm excitation, 514 nm emission, Auto-cutoff: 515 nm.

(2)OD600 (optical density at 600 nm):

  • Device: [http://www.moleculardevices.com/systems/microplate-readers/multi-mode-readers/spectramax-m-series-multi-mode-microplate-readers SpectraMax+M5 microplate reader], 96-well plates.
  • Wavelengths: 600 nm absorption.

8. Measure every 30 minutes in the next 4 hrs.

References

[1] [http://journals.aps.org/pre/abstract/10.1103/PhysRevE.82.021911 Bagh, Sangram, Mahuya Mandal, and David R. McMillen. "Minimal genetic device with multiple tunable functions." Physical Review E 82.2 (2010): 021911]


More information, click here: [http://2014.igem.org/Team:XMU-China# XMU-China]

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