IGEM:IMPERIAL/2007/Projects/Biofilm Detector/Modelling: Difference between revisions
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[[IMAGE: ID_transient_C1.jpg|thumb|left|500px|Construct 1 - transient response]]<br clear = "all"> | [[IMAGE: ID_transient_C1.jpg|thumb|left|500px|Construct 1 - transient response]]<br clear = "all"> | ||
[LuxR]o=0 ; [AHL]o= | [LuxR]o=0 ; [AHL]o=variable ; [A]o=0 ; [P]o=1 ; [AP]o=0 ; [FP]o=0 | ||
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[[IMAGE: ID_transient.jpg|thumb|left|500px|Construct 2 - transient response]]<br clear = "all"> | [[IMAGE: ID_transient.jpg|thumb|left|500px|Construct 2 - transient response]]<br clear = "all"> | ||
[LuxR]o= | [LuxR]o=10 ; [AHL]o=variable ; [A]o=0 ; [P]o=1 ; [AP]o=0 ; [FP]o=0 | ||
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Revision as of 09:05, 28 August 2007
Infector Detector: Modelling
Overview of Modelling
Welcome to our Portal Page for the modelling of Infector Detector.
Infector Dectector (ID) is based on the Quorum Sensing Pathway and our aim in modelling of ID is to determine the concentration of AHL in biofilm we can detect such that we report a visible signal .We are looking at two constructs to emulate the quorum sensing pathway:
The main feature of this construct is that it constitutively expresses LuxR Here is what our construct looks like composed of biobricks |
The main feature of this construct is that it does not constitutively expresses LuxR and therefore enables us to determine the initial concentration of LuxR |
Here is a Block Diagram Picture of how construct 1 will work |
Here is a Block Diagram Picture of how construct 2 will work |
Transient response of construct 1 [LuxR]o=0 ; [AHL]o=variable ; [A]o=0 ; [P]o=1 ; [AP]o=0 ; [FP]o=0 |
Transient response of construct 2 [LuxR]o=10 ; [AHL]o=variable ; [A]o=0 ; [P]o=1 ; [AP]o=0 ; [FP]o=0 |
As can be seen from the above plots, over the same time span the [FP] reached by construct 1 is less than that of construct 2. This is due to the fact that for consturct 1 it takes time for sufficient LuxR to be produced.
Transfer function of system:
[[IMAGE: |thumb|left|500px|Construct 1 - transfer function]] |
Transfer function of system:
[[IMAGE: |thumb|left|500px|Construct 2 - transfer function]]
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17.08.07 Modelling General Concerns
For protocols to figure out :
- Degradation terms:GFP,LuxR,AHL - want expt to find delta as a function of chassis
- If we put protease inhibitors in the mixture and can we assume negligible degradation for GFP and luxR, not sure about AHL have to look in literature for that.
- What is the visual threshold of [GFP] - want expt to find this
- Do you need to do it for GFP or just for the final reporter used, which is dsRED
- What is the concentration of promoters - is this chassis dependant ?
- You know - the weight of DNA added, and the mass of each plasmid. Knowing that there is only one promoter on each plasmid, you can calculate the concentration of promoters.
- Activation/Response Time of Plux (F2620)?
- You might want to check the part F2620, not sure if the information is useful, or valid for in vitro.
(Protocols) Construct 1 specific:
- What is the lifespan of the whole system?
- Can we get steady-stateof LuxR? - When will this happen ? - Before cell dies ?
- Having reached steady state is there enough E left to express [GFP]
(Protocols) Construct 2 specific:
- Can we obtain purified LuxR to be injected into System - protocol for prep of LuxR
- Protease inhibitors available?
- Yes, in homemade extract. For commercial extract, still waiting for reply from promega.
- How long will it take to get construct 2 ready ?
- Week 8, earliest (unfortunately)
For modelling to figure out :
- K-values for rxn pathway
- k5/k4 = 5*10-10M [source: pmid=17400743]
- Response of Biofilm : Is [AHL] constant ?
- Simulation of [LuxR] vs. Time