Team:ETHZ Basel/Modeling/Chemotaxis/Rao2004

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Simulation results of the chemotaxis model: Rao et al. (2004)

Sensitivity Analysis

Simulations were carried out to see the sensitivity of the CheYp level, against the variations of the other Che proteins (CheR, CheB & CheZ). The results are summarized in the following table.

Rao2004sensitivity.jpg

Simulation Results

The output plots of the individual simulations of the Che protein variations and introduction of a chemo-attractant resulting in changes in CheYp levels are discussed below.

Introducing a Chemo-attractant

A chemo-attractant is added at t=500s and it is removed at t = 1000s. The level of decrease and increase of CheYp due to the attractant is robust to different concentrations of the attractant. This is the general classical case in which the model shows perfect adaptation.

Rao2004fig1.jpg

Variation of CheR

Here, CheR concentration is halved at t=500s. Then, the CheYp level drops from 4.4 uM to around 2.7 uM. Once the CheR level is restored back to the original value, CheYp level is also restored back to the initial value.

Rao2004fig2.jpg

Variation of CheB

CheB halved

When the CheB concentration is halved at t=500s, CheYp level increases from 4.4 uM to 5.8 uM. When the CheB concentration is restored back to the initial value, then CheYp also comes down to the initial value.

Rao2004fig3.jpg


CheB doubled

As expected, the reverse effect was observed when CheB concentration was doubled at t=500s. i.e CheYp concentration dropped from 4.4 to 3.4 uM. It came back to the original value when CheB level was restored back.

Rao2004fig4.jpg


Variation of CheZ

A similar effect to CheB was observed when changing CheZ concentration. When CheZ level was halved at t=500s, CheYp level dropped from 4.4 to 2.2 uM, and went up to the initial value when CheZ level was restored.


Rao2004fig5.jpg