Team:TU-Delft/Timer-Sumo-KillSwitch
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<h2 align="center">Results</h2> | <h2 align="center">Results</h2> | ||
+ | In Figure 1 the results of the simulation are shown. | ||
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+ | <h2 align="center">Conclusion/Discussion</h2> | ||
+ | In Figure 1 the behavior of the total circuit is seen, and the answers to the questions can be given: | ||
+ | <ol> | ||
+ | <li>How much peptides are produced by the circuit?<br>The total concentration is 18000 peptides per cell. </li> | ||
+ | <li>How much peptides are still uncleaved by the SUMO at the point of cell lysis?<br>The models shows that there is almost no SUMO-peptide uncleaved.</li> | ||
+ | <li>How many minutes does the cell lysis take from the point of induction?<br>After 165 minutes the Holin concentration passes 190 molecules per cell and cell lysis occurs.</li> | ||
+ | </ol> | ||
+ | |||
+ | <h2 align="center">Sensitivity analysis</h2> | ||
</html> | </html> |
Revision as of 12:30, 17 September 2013
Timer-SUMO-KillSwitch
The separate modules: Timer plus SUMO and Kill Switch are combined to form the complete model of the system: Timer - SUMO - Kill Switch. For the final model, the kill switch module is converted in such a way so as the holin and antiholin to be activated by the Pci promoter.
Figure 1: Circuit of the kill switch
Differential Equations
Parameters
Parameter | Value | Description | Units | Reference |
ca | 1020 | Translation rate per amino acid | min-1#a-1 | [7] |
cT7 | 4.16 | Maximum transcription rate of T7 | #m/min | [2] |
cptet | 2.79 | Maximum transcription rate of Ptet | #m/min | [4] |
cpconst | 0.5 | Transcription rate of Pconst | #m/min | Assumption |
cci | 1.79 | Maximum transcription rate of Pci | #m/min | [3] |
dmRNA | 0.231 | Degradation rate of mRNA | min-1 | [8] |
dH | 0.0348 | Degradation rate of holin / Antiholin | M/min | [17] |
dTET | 0.1386 | Degradation rate of TET | min-1 | [9] |
dCI | 0.042 | Degradation rate of CI | min-1 | [9] |
kb,HAH | 0.3*10-4 | Backward rate | [17] | |
kf,HAH | 11.7*10-4 | Forward rate | [17] | |
dPEP | 2.1*10-3 | Degradation rate of the peptide | min-1 | Assumed three times slower same as GFP |
dPSU | 6.3*10-3 | Degradation rate of the peptide plus SUMO | min-1 | Assumed the same as GFP |
dUlp | 1.263*10-2 | Degradation rate of Ulp | min-1 | Assumed twice the rate of GFP |
lt7 | 0.002 | Leakage factor of T7 | - | Assumption |
lptet | 0.002 | Leakage factor of Ptet | - | Assumption |
lci | 0.002 | Leakage factor of Pci | - | Assumption |
ktet | 6 | Dissociation constant of Ptet | #m | [10] |
kci | 20 | Dissociation constant of Pci | #m | [10] |
kcUlp | 3 | Turnover rate of Ulp | min-1 | [6] |
nci | 3 | Hills coefficient | - | [11] |
ntet | 3 | Hills coefficient | - | [11] |
s | 0 or 1 | Activation/Inactivation of T7 promoter | Binary | Assumption |
sci | 228 | Length of CI | amino acids | [12] |
sPSU | 18 + 110 | Length of peptide plus SUMO | amino acids | [12] |
sTET | 206 | Length of TET | amino acids | [13] |
sUlp | 233 | Length of Ulp1 | amino acids | [13] |
sH | 219 | Length of Holin | amino acids | |
sAH | 103 | Length of Antiholin | amino acids |
Results
In Figure 1 the results of the simulation are shown.Figure 1: Simulation Results
Conclusion/Discussion
In Figure 1 the behavior of the total circuit is seen, and the answers to the questions can be given:- How much peptides are produced by the circuit?
The total concentration is 18000 peptides per cell. - How much peptides are still uncleaved by the SUMO at the point of cell lysis?
The models shows that there is almost no SUMO-peptide uncleaved. - How many minutes does the cell lysis take from the point of induction?
After 165 minutes the Holin concentration passes 190 molecules per cell and cell lysis occurs.