The Amended Model

The model we now look at is the final step in our progression. We take a system with constitutive production of LuxR (on the J23105, 0.0104 POPS) and have LuxI on a feedback loop using a weak Luxbox. (0.002 max POPS, 0.00015 min POPS)

This allows us to use the literature value of K_P while still getting good results. We see in the next few plots that the values of K_CI and K_TetR are very robust in this model:

We know from the literature that K_CI is expected to be greater than K_TetR. This means that we can assume that in a worst case scenario K_CI might be equal to K_TetR. We use this worst case assumption now to check the relationship between K_CI (= K_tetR) VS. K_P. This is what we find:

So our system is also very robust for different values of K_P.

The required levels of HSL outside and IPTG outside

The only area left to explore is how the levels of the input molecules affect the output. We do this here in the same manner as was done for previous versions of the system.

Conclusion

Here is how our system functions with the parameters we believe to be correct:

We can conclude that this system is very robust for K _CI, K_TetR, K_lacI and K_P. It can be activated by lower levels of HSL and IPGT than its predecessors and consistently produces large quantities of the glue molecule, molecule X. We have also shown that it is capable of latching behaviour for quorum sensing, given the right promoter strengths on the luxI feedback lux box.