Team:Uppsala

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Bactissiles: The future of microbial combat

Destabilized ecosystems and disturbed gut floras are both consequences of treatments that lack selectivity. More efficient and precise methods are needed. This year we, the Uppsala iGEM team, tries to widen the view and find new possibilities with engineered bacteria. By developing a system that homes towards a target and secretes an affectant, we can ensure a specific outcome. Such a system could have applications in a number of different fields, though we have chosen to put this into practice in a pinpointing pathogen-killing approach. In our prototype system, introduced in E. coli , we hijack the quorum sensing system of the gut pathogen Yersinia enterocolitica . Our bacteria will be able to sense the presence of the pathogen, accumulate in its vicinity and emit a target-specific bacteriocin, leaving the remaining gut flora intact. The era of mass destruction is over. Welcome the missile bacteria, the Bactissile! .

Assembly Plan

Main Result

Sensing Result


Graph 1. The production of the green fluorescence protein GFP in cells containing the following constructs:
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

By constructing the measurement construct BBa_K1381008 (yenbox_WT-B0032-GFP) and performing double transformation together with one of the constructs producting the activator YenR BBa_K1381005 (J23110-B0034-YenR), BBa_K1381006 (J23102-B0034-YenR) and BBa_K1381007 (J23101-B0034-YenR). We managed to show that the activator YenR works perfectly fine in E. coli and that it recognise the recognition region, the yenbox and induces the strength of the promoter fused with it. By measuring the production of the green fluorescence protein GFP using a flow cytometer, we could see that we got a five-fold induction when YenR with the strongest promoter out of the three used were present.

Targeting Result


Figure 1. The production of the green fluorescence protein GFP in cells containing the following constructs:
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

By constructing the measurement construct BBa_K1381008 (yenbox_WT-B0032-GFP) and performing double transformation together with one of the constructs producting the activator YenR BBa_K1381005 (J23110-B0034-YenR), BBa_K1381006 (J23102-B0034-YenR) and BBa_K1381007 (J23101-B0034-YenR). We managed to show that the activator YenR works perfectly fine in E. coli and that it recognise the recognition region, the yenbox and induces the strength of the promoter fused with it. By measuring the production of the green fluorescence protein GFP using a flow cytometer, we could see that we got a five-fold induction when YenR with the strongest promoter out of the three used were present.

Killing Result


Figure 2. The picture show the result from an experiment to test the killing efficiency of our bacteriocin colicin Fy. On the left Y. enterocolitica had been grown in liquid culture together with colicin Fy. The right plate is a negative control, where Y. enterocolitica had grown in the same conditions in liquid culture without any colicin Fy added.

We manage to produce the bacteriocin colicin Fy and by fusing it with a His-tag we could peform a SDS-page and prove its presence. To analyse the colicin Fy’s killing efficiency we let Y. enterocolita grow with and without colicin Fy in liquid cultures and compared the result. Fig. 2 shows these two cultures plated. On the left plate, the Y. enterocolitica had grown with the colicin Fy added, while the right plate is the negativ control, where Y. enterocolitica had grown without any colicin Fy. If we compare the two plates, we can see that there is a clear difference in the amount of growing Y. enterocolitica colonies.