Difference between revisions of "Team:Tokyo Tech/Experiment/Interlab"
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8. Measure the fluorescence intensity with plate reader.<br> | 8. Measure the fluorescence intensity with plate reader.<br> | ||
9. Rotate the 96-well plate 180 degrees horizontally and measure the fluorescence intensity again.<br></p> | 9. Rotate the 96-well plate 180 degrees horizontally and measure the fluorescence intensity again.<br></p> | ||
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− | + | <td width="940px"><div align="center"><img src="https://static.igem.org/mediawiki/2015/f/f7/Tokyo_Tech_Interlab_Table.3-7-4-1.png" width="700px"/> | |
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− | + | <td width="940px"> | |
− | + | <h4 align="center" class="fig"><strong>Table. 3-7-3-2.</strong> Arithmetic mean (Mean) and Standard deviation (S.D) of samples.</h4> | |
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</table><br> | </table><br> | ||
− | <h3 id="meter" class="sub6">4 | + | <h3 id="meter" class="sub6">4.3.2. Flow cytometer</h3> |
+ | <p class="text4"> | ||
+ | 1. Prepare 3 over night cultures for each sample Device1〜Device3, positive control and negative control in 3m LB medium containing chloramphenicol (35 microg / mL) at 37°C for 17h and shake at 180 rpm.<br> | ||
+ | 2. Start preparing the flow cytometer 1 h before the end of incubation.<br> | ||
+ | 3. Measure the OD590 and adjust the volume of each sample to centrifuge so that the amount of pellet will be about the same for every sample.<br> | ||
+ | 4. Centrifuged the samples at 9000x g, 1min, 4°C.<br> | ||
+ | 5. Remove the supernatants by using P1000 pipette and suspended the samples with 1mL of filtered PBS (phosphate-buffered saline).<br> | ||
+ | 6. Dispense all of each suspension into a disposable tube through a cell strainer.<br> | ||
+ | 7. Measure fluorescence intensity with flow cytometer.<br> | ||
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− | <h2 id="Reference" class="smalltitle"> | + | <h2 id="Reference" class="smalltitle">5. Reference</h2> |
めでたし、めでたし。 | めでたし、めでたし。 | ||
</div> | </div> |
Revision as of 07:59, 13 September 2015
Interlab
We have measured three devices.
contents
1. Introduction
2. Summary of the Experiment
3. Results
3.1. Plate reader
3.2. Flow cytometer
4. Materials and Methods
4.1. Construction
4.2. Instruments and Date
4.2.1. Instruments
4.2.2. Date
4.3. Protocol
4.3.1. Plate reader
4.3.2. Flow cytometer
5. Reference
1. Introduction
In iGEM 2015, the Interlab Study was held, where we measured the expression level of GFP using three designated devices. It was the first time for our team to join this Interlab Study. In addition to the three designated devices, we also measured the expression level of GFP from a positive control and a negative control using the flow cytometer and the plate reader. Also, for the plate reader, we succeeded in calculating the absolute unit by drawing the calibration curve using sodium fluorescein.
2. Summary of the Experiment
Our purpose was to obtain the fluorescence data of the three designated devices and to compare them. We prepared Device1〜Device3, Positive control and Negative control as shown below. We measured the exact same colonies of the exact same samples with both the plate reader and the flow cytometer.
Device 1: J23101 + I13504(pSB1C3)
Device 2: J23106 + I13504(pSB1C3)
Device 3: J23117 + I13504(pSB1C3)
Positive control: BBa_I20270(pSB1C3)
Negative control: BBa_R0040(pSB1C3)
Fig.3-7-2-1. designated devices |
3. Results
3.1. Plate reader
First of all, we calibrated our plate reader by confirming the linear relationship between sodium fluorescein concentration and fluorescence (Figure. 3-7-3-1). The way we obtained the calibration curve is descried in the 4. Material and Method section.
Fig.3-7-3-1. Calibration curve |
We measured three colonies(#1〜3) three times (Technical replicate 1〜3) per each sample (Device1〜3, positive control and negative control).
Using the calibration curve (Figure. 3-7-3-1), we were able to obtain the absolute unit of fluorescence (Table. 3-7-3-1). The way we obtained the absolute unit is described in the 4. Material and Method section. These results show that the intensity of fluorescence was in the following order, Device1>Device2>positive control>Device3>negative control.
Table. 3-7-3-1. The absolute unit of fluorescence intensity |
We calculated the arithmetic mean for each sample by adding the nine values of all three colonies and dividing it by 9. We also calculated the standard deviation for each sample from the calculated arithmetic mean. (Table. 3-7-3-2)
Table. 3-7-3-2. Arithmetic mean (Mean) and Standard deviation (S.D) of samples. |
Fig.3-7-3-2. Results from the plate reader
|
3-2. Flow cytometer
We measured the geometric mean of fluorescence intensity for each sample. The results are shown below (Table.3-7-3-3). We measured three colonies(#1〜3) three times (Technical replicate 1〜3) per each sample (Device1〜3,positive control and negative control).
These results show that the intensity of fluorescence was in the following order, Device1>Device2>positive control>Device3>negative control. (Table. 3-7-3-4)(Figure. 3-7-3-3)
These results are the same as the results from the measurement done by the plate reader.
Table. 3-7-3-3. Results from the flow cytometer |
Table. 3-7-3-4. Arithmetic mean (Mean) and Standard deviation (S.D) of samples. |
Fig.3-7-3-3. Results from the flow cytometer
|
4. Materials and Methods
4.1. Construction
-Strain
All the samples were DH5α strain.
-Plasmids
Device 1: J23101 + I13504(pSB1C3)
Fig.3-7-4-1. |
Device 2: J23106 + I13504(pSB1C3)
Fig.3-7-4-2. |
Device 1: J23117 + I13504(pSB1C3)
Fig.3-7-4-3. |
Positive control: BBa_I20270(pSB1C3)
Fig.3-7-4-4. |
Negative control: BBa_R0040(pSB1C3)
Fig.3-7-4-5. |
-Sequence Data
Please refer to Sequence Data page.
4.2. Instruments and Date
4.2.1. Instruments
-Plate reader
We used FujiFilm FLA-5100 Fluorescent Image Analyzer from FUJI Film Life Science. The wavelength of light we used to excite the cells was 473 nm. We used BPB1 (530DF20) filter to capture the light emission from the cells. The sampling frequency is only one time.
-Flow cytomerer
We used BD FACSCaliburTM Flow Cytometer of Becton, Dickenson and Company. The wavelength of light we used to excite the cells was 488 nm. We used laser detection channel FL1 to capture the light emission from the cells. Laser detection channel Fl1 was used with sensitivity 680 [v]. The sampling frequency is only one time.
4.2.2. Date
Cloning of constructs was confirmed by October 21st 2015. Transformant plates were from 24 October 2015. All the samples were measured on October 27th 2015.
4.3. Protocol
4.3.1. Plate reader
1. Prepare 3 over night cultures for each sample Device1〜Device3, Positive control and Negative control in 3 mL LB medium containing chloramphenicol (35 microg / mL) at 37 °C for 17h and shake at 180 rpm.
2 .Measured the OD590 of each sample and diluted each sample to adjust OD590 within 5% of 0.5.
3. Set the plate reader to measure GFP.
4. Take 1 mL of the samples, and centrifuge at 9000x g, 1 min, 4°C.
5. Remove the supernatants by using P1000 pipette.
6. Add 1 mL of filtered PBS (phosphate-buffered saline) and suspend.
7. Place 200 μL of each sample into the 96-well plate as described in Table. 3-7-4-1.
8. Measure the fluorescence intensity with plate reader.
9. Rotate the 96-well plate 180 degrees horizontally and measure the fluorescence intensity again.
Table. 3-7-3-2. Arithmetic mean (Mean) and Standard deviation (S.D) of samples. |
4.3.2. Flow cytometer
1. Prepare 3 over night cultures for each sample Device1〜Device3, positive control and negative control in 3m LB medium containing chloramphenicol (35 microg / mL) at 37°C for 17h and shake at 180 rpm.
2. Start preparing the flow cytometer 1 h before the end of incubation.
3. Measure the OD590 and adjust the volume of each sample to centrifuge so that the amount of pellet will be about the same for every sample.
4. Centrifuged the samples at 9000x g, 1min, 4°C.
5. Remove the supernatants by using P1000 pipette and suspended the samples with 1mL of filtered PBS (phosphate-buffered saline).
6. Dispense all of each suspension into a disposable tube through a cell strainer.
7. Measure fluorescence intensity with flow cytometer.