Difference between revisions of "Part:BBa K1381000"
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https://static.igem.org/mediawiki/2014/f/f1/Yenbox_WT_graph_Uppsala14.png | https://static.igem.org/mediawiki/2014/f/f1/Yenbox_WT_graph_Uppsala14.png | ||
| − | <i>Graph 1. The production of the green fluorescence protein GFP in cells containing the following constructs: | + | <br><i>Graph 1. The production of the green fluorescence protein GFP in cells containing the following constructs: |
A) 1. pSB1C3-B0032-yenbox_WT-GFP<br> | A) 1. pSB1C3-B0032-yenbox_WT-GFP<br> | ||
2. pSB1C3-B0032-yenbox_WT-GFP + pSB1K3-J23101-B0034-YenR<br> | 2. pSB1C3-B0032-yenbox_WT-GFP + pSB1K3-J23101-B0034-YenR<br> | ||
Revision as of 16:05, 11 October 2014
yenbox_WT
yenbox_WT is a recognition region (homologous to the luxbox), fused with a wildtype promoter from Yersinia enterocolitica. When interaction between the activator YenR and the yenbox occur, the expression level of the fused promoter is induced.
The Yen system
Y. enterocolitica has a homologous quorum sensing system to the famous Lux system, the Yen system. This complex system consist of many different parts, tho the two interesting ones are the recognition region the yenbox and the activator YenR, that recognise and interacts with the yenbox. When YenR binds to the yenbox it induces the expression level of the promoter fused to the yenbox. Later, in the presence of Y. enterocolitica, its signaling molecules, 3-oxo-hexanoyl homoserine lactone (OHHL), will start flowing into our system, interacting with YenR. When binding occurs between the OHHL and YenR, YenR will lose its active shape and thereby its ability to interact with the yenbox. The induction will then be lost and the expression level will return to its base level. [1]
Characterisation
For characterisation we created the constructs BBa_K1381008, where the yenbox fused with the wildtype promoter was coupled to the green fluorescent protein (GFP). These constructs were then cloned into the backbones pSB1C3 and pSB3C17 and transformed into competent E. coli cells already containing one of the YenR constructs BBa_K1381005, BBa_K1381006 or BBa_K1381007 on the backbone pSB1K3. The double transformed cells were then streaked on plates containing both the antibiotic Kanamycin and Chloramphenicol and left it overnight to grow. Cells containing only the constructs yenbox_promoter-B0032-GFP were also streaked and left to grow.
The following day, overnight cultures were prepared and left for 16 h to grow into stationary phase. After that, 10 µL of the overnight culture was put into 500 µL of PBS solution and left for one hour for stabilization. The green fluorescence production was then measured using a flow cytometer. The results of the test is shown below.
Graph 1. The production of the green fluorescence protein GFP in cells containing the following constructs:
A) 1. pSB1C3-B0032-yenbox_WT-GFP
2. pSB1C3-B0032-yenbox_WT-GFP + pSB1K3-J23101-B0034-YenR
3. pSB1C3-B0032-yenbox_WT-GFP + pSB1K3-J23110-B0034-YenR
4. pSB1C3-B0032-yenbox_WT-GFP + pSB1K3-J23102-B0034-YenR
B) 1. pSB3C17-B0032-yenbox_WT-GFP
2. pSB3C17-B0032-yenbox_WT-GFP + pSB1K3-J23101-B0034-YenR
3. pSB3C17-B0032-yenbox_WT-GFP + pSB1K3-J23110-B0034-YenR
4. pSB3C17-B0032-yenbox_WT-GFP + pSB1K3-J23102-B0034-YenR
Graph 1 above, shows the induction relative to the base level of expression. In graph 1.A. we can observe the induction but cannot predict to what extent. This is because these cells are transformed with two high copy plasmids containing the same ori(origin of replication). The consequence will be that the cells will confuse the two plasmids with each other and have no control of in what amount the two respective plasmids are present. It will only ensure that it is 100-300 plasmids present in total, regardless of which plasmid it is. This is why we also cloned the yenbox containing constructs into a low copy plasmid with a different ori than the high copy ones.
In graph 1.B., it can be seen that the amount of YenR that is produced is correlated, as expected, to the rate of the induction. When coupled to the strongest of the three promoters, J23102, the production is increased up to five folds.
These kind of constructs were also constructed with a blue fluorescence protein (BFP) that were also transformed into cells already containing one of the YenR constructs BBa_K1381005, BBa_K1381006 or BBa_K1381007 on the backbone pSB1K3. They were then plated and restreaked together with a non-fluorescence containing reference and a base level reference without any YenR. These plates were used to see if the induction could be seen in UV light, with the naked eye. Unfortunately, as you can see in fig. 1 below, this was not the case. The color could be seen, but there was barely any difference in the intensity of the different cells.
- Insert pic
It should also be mentioned that we did an attempt to create bigger constructs containing the characterisation constructs with the yenbox coupled to GFP and the YenR constructs (yenbox_promoter-B0034-GFP-terminator-promoter-B0034-YenR). But for some reason these assemblies did not work. After some troubleshooting we came to the conclusion that it was too stressful for our bacteria to produce both BFP and YenR on the same high copy plasmid or that these constructs were not stable in E. coli and got rejected or mutated by the cell.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12INCOMPATIBLE WITH RFC[12]Illegal NheI site found at 41
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]