Difference between revisions of "Team:KU Leuven/InterLabStudy/Protocol"
| Line 67: | Line 67: | ||
</h2> | </h2> | ||
<p> | <p> | ||
| − | + | Experiments started with the construction of devices that contained constitutive | |
promoters with low (J23117), medium (J23106) and higher (J23101) strength. | promoters with low (J23117), medium (J23106) and higher (J23101) strength. | ||
| − | Each | + | Each promoter was coupled to BioBrick I13504, containing a RBS, GFP protein and a double terminator. |
| − | + | The above mentioned BioBrick and the promoters were transformed in E. cloni competent cells. The cells were grown on LB (Sigma-Aldrich) 1.5% agar (VWR Chemicals) plates with chloramphenicol (from Acros Organics) as a selection | |
| − | + | marker. As a positive control, cells were also transformed with the pUC19 plasmid and | |
| − | marker. As a positive control, | + | plated on LB plates containing ampicillin. E. cloni without any |
| − | plated | + | plasmid was also plated as a negative control on LB plates containing chloramphenicol. |
| − | plasmid as a negative control on LB plates containing chloramphenicol. | + | Transformation of the BioBricks was performed twice by using chemically competent |
| − | + | cells. The first time, no colonies from any of the four BioBricks were obtained. The | |
| − | cells. The first time, | + | second time, only a few colonies grew. Nevertheless, the positive controls were |
| − | second time | + | correct every time and the transformation efficiency of our E. cloni was previously proven to be very high. Therefore, we switched to electroporation. This technique showed a higher efficiency and enough |
| − | correct every time | + | colonies grew to perform the measurements. |
| − | + | ||
| − | + | ||
| − | + | ||
| − | colonies | + | |
<br></br> | <br></br> | ||
| − | Thereafter | + | Thereafter, the BioBrick Assembly Method was used to combine the promoters with GFP. |
| − | Subsequently | + | Subsequently, electrocompetent E. cloni cells were transformed, |
| − | plated | + | plated on LB agar plates with antibiotic selection markers, illuminated with blue/UV-light to check for the presence of GFP, and thus |
| − | + | a functional device. | |
| − | + | ||
</br> | </br> | ||
| − | For the fluorescent measurements, | + | For the fluorescent measurements, liquid cultures (3 |
| − | mL-LB + Antibiotic) in polypropylene round-bottom tubes and incubated | + | mL-LB + Antibiotic) were inoculated in polypropylene round-bottom tubes and incubated for 16 |
| − | to 18 hours in a shaking incubator (200 rpm) at 37 degrees. | + | to 18 hours in a shaking incubator (200 rpm) at 37 degrees Celcius. The |
| − | + | fluorescence data from cells grown to an OD of ~0.5 (if the OD was higher, it was brought | |
| − | in the range 0.48-0.52) at 300 nm. Finally, the fluorescence data were collected | + | in the range 0.48-0.52) were measured at 300 nm. Finally, the fluorescence data were collected |
| − | from the overnight cultures of the constructed devices with | + | from the overnight cultures of the constructed devices with excitation and |
| − | emission wavelengths of 483 nm and 525 nm respectively | + | emission wavelengths of 483 nm and 525 nm respectively in a 96-well plate by a |
| − | Tecan Safire2 monochromator MTP Reader. | + | Tecan Safire2 monochromator MTP Reader. Besides, the absorbance measurements at 600 |
| − | nm were repeated in the plate reader | + | nm were repeated in the plate reader to normalize for cell density. |
| − | + | ||
</br> | </br> | ||
</p> | </p> | ||
| Line 151: | Line 145: | ||
<div class="togglebar"> | <div class="togglebar"> | ||
<div class="togglethree"> | <div class="togglethree"> | ||
| − | <h2> | + | <h2>BioBrick Assembly Method</h2> |
</div> | </div> | ||
<div id="togglethree" > | <div id="togglethree" > | ||
| Line 187: | Line 181: | ||
</h2> | </h2> | ||
<p> | <p> | ||
| − | Our wetlab team worked well together to fulfill this challenge. Vincent Van Deuren and Laurens Vandenbroek performed the | + | Our wetlab team worked well together to fulfill this challenge. Vincent Van Deuren and Laurens Vandenbroek performed the BioBrick assembly and the transformation experiments. The measurements were recorded by Laetitia Van Wonterghem, Ovia Margaret Thirukkumaran and Laurens Vandenbroek. Laura Van Hese, Astrid Deryckere, Ines Cottignie and Vincent Van Deuren carried out the restriction digestion to check for the inserts. Finally, the results were processed by Ovia Margaret Thirukkumaran and Laurens Vandenbroek, and our wiki-page was filled with provided data by Vincent Van Deuren </br> |
<br> To grow our cells, we made use of a New Brunswick Innova® 43/43R Shaker purchased in Eppendorf. This incubator has a throw of 2.54 cm. Our devices were measured by a Tecan Safire2 monochromator MTP Reader. This machine was last calibrated on the 31th of March in 2015 by Tecan and our measurements took place on the 25th of August in 2015. The cells were excited at 483 nm and the emission was recorded at 525 nm. To capture the light emission, a Quad4 Monochromator was used. The absorbance was measured at 600 nm with a sampling frequency of 0.11 seconds/ sample while the sampling frequency of the fluorescence was 0.15 seconds/sample. | <br> To grow our cells, we made use of a New Brunswick Innova® 43/43R Shaker purchased in Eppendorf. This incubator has a throw of 2.54 cm. Our devices were measured by a Tecan Safire2 monochromator MTP Reader. This machine was last calibrated on the 31th of March in 2015 by Tecan and our measurements took place on the 25th of August in 2015. The cells were excited at 483 nm and the emission was recorded at 525 nm. To capture the light emission, a Quad4 Monochromator was used. The absorbance was measured at 600 nm with a sampling frequency of 0.11 seconds/ sample while the sampling frequency of the fluorescence was 0.15 seconds/sample. | ||
Revision as of 22:26, 14 September 2015
Protocol
Introduction
Experiments started with the construction of devices that contained constitutive
promoters with low (J23117), medium (J23106) and higher (J23101) strength.
Each promoter was coupled to BioBrick I13504, containing a RBS, GFP protein and a double terminator.
The above mentioned BioBrick and the promoters were transformed in E. cloni competent cells. The cells were grown on LB (Sigma-Aldrich) 1.5% agar (VWR Chemicals) plates with chloramphenicol (from Acros Organics) as a selection
marker. As a positive control, cells were also transformed with the pUC19 plasmid and
plated on LB plates containing ampicillin. E. cloni without any
plasmid was also plated as a negative control on LB plates containing chloramphenicol.
Transformation of the BioBricks was performed twice by using chemically competent
cells. The first time, no colonies from any of the four BioBricks were obtained. The
second time, only a few colonies grew. Nevertheless, the positive controls were
correct every time and the transformation efficiency of our E. cloni was previously proven to be very high. Therefore, we switched to electroporation. This technique showed a higher efficiency and enough
colonies grew to perform the measurements.
Thereafter, the BioBrick Assembly Method was used to combine the promoters with GFP.
Subsequently, electrocompetent E. cloni cells were transformed,
plated on LB agar plates with antibiotic selection markers, illuminated with blue/UV-light to check for the presence of GFP, and thus
a functional device.
For the fluorescent measurements, liquid cultures (3
mL-LB + Antibiotic) were inoculated in polypropylene round-bottom tubes and incubated for 16
to 18 hours in a shaking incubator (200 rpm) at 37 degrees Celcius. The
fluorescence data from cells grown to an OD of ~0.5 (if the OD was higher, it was brought
in the range 0.48-0.52) were measured at 300 nm. Finally, the fluorescence data were collected
from the overnight cultures of the constructed devices with excitation and
emission wavelengths of 483 nm and 525 nm respectively in a 96-well plate by a
Tecan Safire2 monochromator MTP Reader. Besides, the absorbance measurements at 600
nm were repeated in the plate reader to normalize for cell density.
Methodology
Worksheet
Our wetlab team worked well together to fulfill this challenge. Vincent Van Deuren and Laurens Vandenbroek performed the BioBrick assembly and the transformation experiments. The measurements were recorded by Laetitia Van Wonterghem, Ovia Margaret Thirukkumaran and Laurens Vandenbroek. Laura Van Hese, Astrid Deryckere, Ines Cottignie and Vincent Van Deuren carried out the restriction digestion to check for the inserts. Finally, the results were processed by Ovia Margaret Thirukkumaran and Laurens Vandenbroek, and our wiki-page was filled with provided data by Vincent Van Deuren
To grow our cells, we made use of a New Brunswick Innova® 43/43R Shaker purchased in Eppendorf. This incubator has a throw of 2.54 cm. Our devices were measured by a Tecan Safire2 monochromator MTP Reader. This machine was last calibrated on the 31th of March in 2015 by Tecan and our measurements took place on the 25th of August in 2015. The cells were excited at 483 nm and the emission was recorded at 525 nm. To capture the light emission, a Quad4 Monochromator was used. The absorbance was measured at 600 nm with a sampling frequency of 0.11 seconds/ sample while the sampling frequency of the fluorescence was 0.15 seconds/sample.
Contact
Address: Celestijnenlaan 200G room 00.08 - 3001 Heverlee
Telephone n°: +32(0)16 32 73 19
Mail: igem@chem.kuleuven.be
