This section describes the evaluation of the module of Quorum Sensing. Snow White seems to die after eating the Poisoned Apple that was given by Queen. In order to trace this scene with E. coli, establishing cell-cell communication is necessary.

AHLs, which stand for [N-]acyl-homoserine lactones, are small signaling molecules and are employed in the bacterial “Quorum Sensing” system. In our project, we decided to use three AHLs studied well by several preceding iGEM Teams; the AHL molecules used here were C4HSL (hereafter referred to as C4), 3OC6HSL (C6), and 3OC12HSL (C12). Using these molecules, we enable the E. coli cells in a test tube to communicate and interact. By the experiments in this section, the module of Quorum Sensing was evaluated.

The purpose of the experiments in this section is to evaluate the activities of Prhl (BBa_I14017), Plux (BBa_R0062), and Plas (BBa_R0079) promoters upon addition of different AHLs. When C4, C6, and C12 internalize into E. coli cells, these molecules are accepted by the corresponding receptor proteins, RhlR, LuxR, and LasR, respectively. Then, the RhlR-C4, LuxR-C6, and LasR-C12 complexes activate/repress transcription from the Prhl, Plux, and Plas, respectively. However, it should be considered that illegitimate reactions of an AHL to non-native receptor proteins also occur to some extent. This phenomenon is called 'crosstalk.' We wanted to seek the best combination of AHL systems for a co-culture of Snow White coli and Queen coli. To this end, four plasmids shown below were constructed and the Relative Fluorescent Units (RFU) of GFP / Turbidity after adding each AHL to the culture medium was measured.

-Plasmids

A. Pcon ‐ rbs ‐ rhlR(BBa_C0071) ‐ tt ‐ Prhl(BBa_I14017) ‐ rbs ‐ gfp (pSB6A1) (Fig. 3-2-1-2-1)

B. Pcon ‐ rbs ‐ luxR(BBa_C0062) ‐ tt ‐ Plux(BBa_R0062) ‐ rbs ‐ gfp (pSB6A1) (Fig. 3-2-1-2-2)

C. Pcon ‐ rbs ‐ lasR(BBa_C0179) - tt - Plas(BBa_R0079) ‐ rbs ‐ gfp (pBS6A1) (Fig. 3-2-1-2-3)

D. pSB6A1 …Nagative control (Fig. 3-2-1-2-4)

The experiments proved that our parts worked as expected (Fig.3-2-1-3).
The ratio of promoter strength is shown below.
Prhl(BBa_I14017) : Plux(BBa_R0062) : Plas(BBa_R0079)= 2 : 40 :1
The Lux system, which is usually activated by C6, reacted not only to C6 but also to C12 (crosstalk). The reaction rate to C12 was half as that to C6. The Rhl system, which is usually activated by C4, reacted not only to C4 but also to C6 (crosstalk). The reaction rate to C6 was 0.78-fold relative to that to C4.

Considering different expression level from the AHL-inducible promoters shown above, we should find and choose the appropriate combination of the AHL molecules, the receptor proteins, and the AHL-inducible promoters for our final genetic circuits. The above results implied that, for expression induction from Plux(BBa_R0062), using not C6 but C12 was better to orchestrate the promoter activities. However, the promoter activity of Prhl(BBa_I14017) was still estimated to be incomparable to that of Plux(BBa_R0062). In fact, when our final circuits was simulated, it was found that the Prhl(BBa_I14017) activity was too weak compared to Plux(BBa_R0062) to operate our final circuits successfully (read the Model page). Taken together, we concluded that improvement of Prhl(BBa_R0071) was necessary to increase its promoter activity and orchestrate the promoter activities (read the Rhl system assay page).

(1) Kendall M. Gray et al. (1994) Interchangeability and specificity of components from the quorum-sensing regulatory systems of Vibrio fischeri and Pseudomonas aeruginosa. Journal of Bacteriology 176(10): 3076–3080

Jump to AHL only of final genetic circuits assay page.