Coding

Part:BBa_K415503:Experience

Designed by: Joy Jiao, Laura Deming, Adrian Slusarczyk   Group: iGEM10_MIT   (2010-10-27)

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Applications of BBa_K415503

The MIT iGEM 2010 team used this part to produce one of the few existing toggles in mammalian systems. A circuit diagram of this toggle is shown below, along with characterization data.

Figure 1. Circuit diagram of bistable toggle.
Figure 2. Effect of DOX on the system.


Our toggle involves a positive feedback loop between rtTA3+DOX and the promoter TREt. Addition of PonS into the system leads to the activation of EGSH, which then subsequently activates the positive feedback loop, propelling the system into a high output state (Figure 1).

Our system is bistable at a wide range of DOX levels. Figure 2 shows a rate plot (dX/dt vs. X) for rtTA3, where the time lapse dispalys the effect of increasing DOX levels on the system. The system is bistable when three intercepts occur on the ordinate, corresponding to a wide range of DOX levels. However, at high DOX levels the system becomes constitutively high/high for -PonS/+PonS.

Triple calcium phosphate transfections were performed on HEK293FT hEF1a_RxR_VgECR cell lines with constructs of our toggle: EGSH_rtTA3 and TREt_EYFP_rtTA3, as well as hEF1a_mKate serving as a fluorescent transfection efficiency control. Micrographs were obtained at 26 hours post transfection. The mKate fluorescence was converted to a binary mask. This mask was then applied to the EYFP fluorescence micrograph and pixel intensities were calculated. Figures 3 and 4 correspond to our sensitivity analysis performed in Figure 2. Qualitative data can be reviewed in figure 5.

Figure 3. Effect of -/+ PonS on the system under high DOX levels.
Figure 4. Effect of -/+ PonS on the system under low DOX levels.
Figure 5. Fluorescent micrographs showing -/+ PonS for: (left) overlay of mKate and EYFP fluorescence indicating both transfection efficiency and toggle output; (right) EYFP levels.

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