Difference between revisions of "Part:BBa K1111002:Experience"
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We wanted to induce GFP expression in our bacteria by adding different buffers to the media. We then let them grow for a while and then looked at them under the microscope to see if they were expressing GFP or not. We compared their fluorescence with another biobrick we made in which we put a constitutive promoter in fron of superfolded GFP as a qualitative measure. | We wanted to induce GFP expression in our bacteria by adding different buffers to the media. We then let them grow for a while and then looked at them under the microscope to see if they were expressing GFP or not. We compared their fluorescence with another biobrick we made in which we put a constitutive promoter in fron of superfolded GFP as a qualitative measure. | ||
− | [[Image: Team-EPFL-Lausanne 1.1_MS_MOPS.jpg|thumb|250px|left|Figure | + | [[Image: Team-EPFL-Lausanne 1.1_MS_MOPS.jpg|thumb|250px|left|Figure 8: Fluorescence of transformed DH5-alpha cells in a medium where we added a 10X MOPS buffer and LB in a 1:1 ratio ]] |
− | [[Image: Team-EPFL-Lausanne 1.1_MS_HEPES.jpg|thumb|250px|left|Figure | + | [[Image: Team-EPFL-Lausanne 1.1_MS_HEPES.jpg|thumb|250px|left|Figure 8: Fluorescence of transformed DH5-alpha cells in a medium where we added a 10X HEPES buffer and LB in a 1:1 ratio ]] |
− | [[Image: Team-EPFL-Lausanne 1.1_MS_Water.jpg|thumb|250px|left|Figure | + | [[Image: Team-EPFL-Lausanne 1.1_MS_Water.jpg|thumb|250px|left|Figure 10: Fluorescence of transformed DH5-alpha cells in a medium where we added a water and LB in a 1:1 ratio ]] |
− | [[Image: Team-EPFL-Lausanne 1.3_MS_Water.jpg|thumb|250px|center|Figure | + | [[Image: Team-EPFL-Lausanne 1.3_MS_Water.jpg|thumb|250px|center|Figure 11: Fluorescence of transformed DH5-alpha containing a constitutive promoter in a media with a 1:1 ratio of LB and water ]] |
===User Reviews=== | ===User Reviews=== |
Latest revision as of 19:03, 2 October 2013
This experience page is provided so that any user may enter their experience using this part.
Please enter
how you used this part and how it worked out.
Applications of BBa_K1111002
We wanted to test if the promoter that we cloned into the plasmid really can be induced upon external acidification. In order to do that, we transformed bacteria with it, incubated them at different pH and then measured their GFP expression using a plate reader.
Gibson Assembly
We used Gibson Assembly to insert the Cad promoter into the pSB1C3 Backbone. We used the biobrick BBa_I746908 where we remove the Arac promoter but left the superfolded GFP. This way, the latter was under control of our Cad promoter.
Sequencing
The sequencing result showed that there were no mutations in the insert
OD Measurements
We transformed cell with our plasmid and then measured their OD in different media with different pHs. We compared this data with the Fluorescence measurements and were able to conclude that the reason why GFP is not expressed at low pH is that the bacteria are actually dying in these two media
Measuring Fluorescence with a PlateReader
We wanted to know if the promoters were indeed induced at low pH. For this we let the bacteria grow in differenly buffered media in aplate reader and the measured their Fluorescence.
Observing Fluorescence under the Microscope
We wanted to induce GFP expression in our bacteria by adding different buffers to the media. We then let them grow for a while and then looked at them under the microscope to see if they were expressing GFP or not. We compared their fluorescence with another biobrick we made in which we put a constitutive promoter in fron of superfolded GFP as a qualitative measure.
User Reviews
UNIQc023137f2cc2315b-partinfo-00000000-QINU UNIQc023137f2cc2315b-partinfo-00000001-QINU