Team:TU-Delft/KillSwitch

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Revision as of 07:40, 18 September 2013

Kill Switch

The kill switch design is based on the expression of holin and antiholin, Figure 1. Holin is a protein that forms pores in cell membranes. Anti-holin binds to holin and inhibits it's action. Once pores are formed by holin, lysozyme can access the periplasmic space and degrade the cell wall, causing cell lysis.

Kill switch constitutes a crucial part of our final system. It is activated after the production and release of the antimicrobial peptide. In that way, the E.coli bacteria are killed and the safety of the system is ensured.

Figure 1: Circuit of the kill switch

Differential Equations

The kill switch circuit can be represented by the following differential equations.


Parameters

The used parameters are listed in Table 1. The dimer binding strengths are fitted on literature of Holin expression using the PcI promoter with and without antiholin. In [14] they have listed lysis times for different expression levels and from these the lethal level of Holin is estimated to be 190 molecules/cell.

Parameter Value Description Units Reference
a 1020 Translation rate per amino acid min-1#a-1 [7]
cpconst 0.5 Transcription rate of Pconst #m/min Assumption
cptet 4.16 Maximum transcription rate of PT7 #m/min [15]
dH 0.0348 Degradation rate of holin M/min [17]
dH 0.0348 Degradation rate of Antiholin M/min [17]
dmRNA 0.231 Degradation rate of mRNA min-1 [8]
kb,HAH 0.3*10-4 Backward rate [17]
kf,HAH 11.7*10-4 Forward rate [17]
lT7 0.002 Leakage factor of PT7 - Assumption
sH 219 Length of Holin amino acids
sAH 103 Length of Antiholin amino acids

Results

The model is simulated upon activating. The lethal dosis of Holin is a 190 molecules, which is shown in the graph as the horizontal line.


Figure 2: Simulation Results


Discussion

As observed the dimer is formed, reducing the amount of antiholin. After around 12 minutes the Holin level passes the 190 molecules, so the cell lysis occurs fast.