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Team:Aberdeen Scotland/parameters/invest 4
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| + | = The Input-dependent model = | ||
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| + | For this model, we no longer assume a trivial process of repression of lacI being liften and QS being turned on. The LacI repression is now a repression / induction hill function with a K<sub>d</sub> of 1200 molecules per cell for IPGT forming IPGT lacI complexes. We assume IPGT leaks into the cell from outside. We only set the outside concentration of IPGT. | ||
| + | For quorum sensing all we set is an elevated HSL concentration outside which is free to defuse in. We now include a feedback loop into the QS mechanism. To do this we attach a lux box onto the plasmid for producing luxR and luxI, like so: | ||
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| + | |||
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| + | [[Image:Input Model Graph 1.jpg|center|500px]] | ||
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| + | However, we are taking the production strengths of this lux box to be reduced in comparison to our lux box for producing X, Y and cI. The strengths are | ||
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| + | Production max for X, Y and cI = 0.44 pops | ||
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| + | taken from the iGEM page of ***** and personal communication with **** on **** | ||
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| + | Production min for X Y and cI = 0.013 pops | ||
| + | |||
| + | taken from ***** | ||
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| + | Production max for QS feedback = 0.002 pops | ||
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| + | Production min for QS feedback = 0.00015 pops | ||
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| + | These values are taken from the paper “ FIOADAOIDFJAOFJASDIOJASOIJADOAJSDAFOJAFOAJSD” | ||
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| + | An important new parameter is K<sub>P</sub>. This is the dissociation constant for “P” activating the lux boxes. P is the luxR/HSL complex . To take a break from the wordy descriptions we will now show some small sections of results for this model, which should be easily interpretable after following the section about the Monte Carlo analysis | ||
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| + | {{:Team:Aberdeen_Scotland/break}} | ||
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| + | =Level of K<sub>P</sub> required for system to function = | ||
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| + | here we use a Monte Carlo simulation to determine the value of K<sub>P</sub> in molecules per cell that is required for the system to function | ||
| + | |||
| + | [[Image:Input Model Graph 10.jpg|centre|700px]] | ||
| + | [[Image:Input Model Graph 11.jpg|centre|700px]] | ||
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| + | {{:Team:Aberdeen_Scotland/break}} | ||
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| + | =Relationship between K<sub>TetR</sub> and K<sub>CI</sub> then K<sub>P</sub> is 100 = | ||
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| + | We notice that K<sub>P</sub> must be around 100 molecules to let the system function. We will now explore the relationship between K<sub>TetR</sub> and K<sub>CI</sub> at the value of K<sub>P</sub>=100 molecules per cell. | ||
{{:Team:Aberdeen_Scotland/footer}} | {{:Team:Aberdeen_Scotland/footer}} | ||
Revision as of 12:23, 13 August 2009
University of Aberdeen - Pico Plumber
The Input-dependent model
For this model, we no longer assume a trivial process of repression of lacI being liften and QS being turned on. The LacI repression is now a repression / induction hill function with a Kd of 1200 molecules per cell for IPGT forming IPGT lacI complexes. We assume IPGT leaks into the cell from outside. We only set the outside concentration of IPGT. For quorum sensing all we set is an elevated HSL concentration outside which is free to defuse in. We now include a feedback loop into the QS mechanism. To do this we attach a lux box onto the plasmid for producing luxR and luxI, like so:
However, we are taking the production strengths of this lux box to be reduced in comparison to our lux box for producing X, Y and cI. The strengths are
Production max for X, Y and cI = 0.44 pops
taken from the iGEM page of ***** and personal communication with **** on ****
Production min for X Y and cI = 0.013 pops
taken from *****
Production max for QS feedback = 0.002 pops
Production min for QS feedback = 0.00015 pops
These values are taken from the paper “ FIOADAOIDFJAOFJASDIOJASOIJADOAJSDAFOJAFOAJSD”
An important new parameter is KP. This is the dissociation constant for “P” activating the lux boxes. P is the luxR/HSL complex . To take a break from the wordy descriptions we will now show some small sections of results for this model, which should be easily interpretable after following the section about the Monte Carlo analysis
Level of KP required for system to function
here we use a Monte Carlo simulation to determine the value of KP in molecules per cell that is required for the system to function
Relationship between KTetR and KCI then KP is 100
We notice that KP must be around 100 molecules to let the system function. We will now explore the relationship between KTetR and KCI at the value of KP=100 molecules per cell.
