Team:PKU Beijing/Modeling/Parameters

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(Difference between revisions)
(Modeling - T3 RNA polymerase)
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|Parameters||Brief Introduction||Number||Unit||Reference/Sensitivity
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|Parameters||Brief Introduction||Value||Unit||Reference/Sensitivity
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|k_1||Max Transcription rate of tRNA||46.67||nM/min||Assumption, 0.19
|k_1||Max Transcription rate of tRNA||46.67||nM/min||Assumption, 0.19
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|k_13||Translation rate of GFP||9*0.6||min^-1||Assumption, 1.00
|k_13||Translation rate of GFP||9*0.6||min^-1||Assumption, 1.00
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|k_s||rate of AND Gate 1||0.3||nM^-1||0.03
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|k_s||rate of AND Gate 1||0.3||nM^-1||0.00
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|k_s'||rate of AND Gate 2||0.3||nM^-1||0.18
|k_s'||rate of AND Gate 2||0.3||nM^-1||0.18
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|K_1||dissociation constant of AraC,tRNA||14||nM||0.03
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|K_3||dissociation constant of Sal,T7RNAP||0.5||nM||0.00
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|K_5||dissociation constant of T7RNAP,trigger CI||3||nM||[http://bionumbers.hms.harvard.edu/bionumber.aspx?s=y&id=103592&ver=1 Ref]
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|K_6||dissociation constant of CI,bistable CI||40||nM||Ref: iGEM2007 PKU Team
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|K_6'||dissociation constant of CI434,bistable CI||50||nM||Ref: iGEM2007 PKU Team
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|K_7||dissociation constant of CI,T3RNAP||40||nM||Ref: iGEM2007 PKU Team
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|K_7'||dissociation constant of CI434,T3RNAP||50||nM||Ref: iGEM2007 PKU Team
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|K_9||dissociation constant of CI,CI434||40||nM||Ref: iGEM2007 PKU Team
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Revision as of 22:10, 16 October 2009

 
Modeling > Parameters

Parameters

Constructing ODEs is only the first step of simulating our design. The parameters, actually, play a bigger role in the modeling process. Here's two sets of parameters(T3 RNA polymerase and P2) we used.

We have done an systematic literature review to select parameters for our model. However, not every parameter can be found from existing works, which means we have to guess part of the parameters from trial and error. To check whether we have guessed correctly, we do the sensitivity test. The sensitivity test works like this: We first give both Sal(food) and AraC(bell) to make bistable turn to CI state(have memory). After a period of time, we give the E. coli AraC stimulus and GFP output will raise after a short while. We select the highest concentration point of GFP in the second procedure. The sensitivity of a parameter is calculated by using the following equations. The closer the sensitivity is to zero, the more reasonable the parameter is. <math>Sensitivity=\frac{c_{max}^{105%}-c_{max}^{95%)}{(105%-95%)*c_{max}^{100%}}</math>

Assumptions

Our model consists of 53 parameters, which makes the modeling process very difficult. To reduce the amount of work without losing quality, we proposed the following assumptions.

  • Transcription

The average transcription speed in E.coli is 70nt/s. Assuming all the transcription in our circuit works in such speed, we can calculate the maximum transcription rate for each transcription equation by using this formula: Maximum Transcription Rate = Transcription Speed(nt/min)/Gene Length(bp)=4200/Gene Length (nM/min)

  • Translation

The average translation speed in E.coli is 40Aa/s. Also assuming all the translation in our circuit works in the same speed, we can calculate the theoretical transcription rate. However, in wetlab, we can use different rbs to regulate the translation process, thus, the translation rate can be written as: Translation Rate = RBS * Translation Speed(Aa/min)/Protein Length(Aa) = 2400RBS/Protein Length (min^-1) This transformation does not change the degree of freedom of our system. However, this does limit the range of parameters since the concentration of RBS can not be too extreme.

Modeling - T3 RNA polymerase

We have construct two models, the difference of which is in the AND Gate 2 module. In this section, we'll demonstrate the parameters of our first model, in which T3 RNA polymerase mRNA with amber mutation and Aa-tRNA will be consumed to produce T3 RNA polymerase protein.

ParametersBrief IntroductionValueUnitReference/Sensitivity
k_1Max Transcription rate of tRNA46.67nM/minAssumption, 0.19
k_2Synthesis rate of Aa-tRNA0.08min^-10.09
k_3Max Transcription rate of T7RNAP1.5625nM/minAssumption, 0.00
k_4Max Translation rate of T7RNAP2.68*0.05min^-1Assumption, 0.00
k_5Max Transcription rate of trigger CI5.6nM/minAssumption, 0.00
k_6Transcription rate of bistable CI5.6nM/minAssumption, 0.00
k_6'Transcription rate of bistable CI1nM/min0.00
k_7Transcription rate of T3RNAP1.75nM/minAssumption, 1.34
k_7'Transcription rate of T3RNAP1nM/min0.00
k_8Translation rate of trigger CI9.6*0.045min^-1Assumption, 0.00
k_8'Translation rate of bistable CI9.6*0.3min^-1Assumption, 0.00
k_9Max Transcription rate of CI4345.92nM/minAssumption, 0.00
k_10Transcription rate of CI43410.14*0.5min^-1Assumption, 0.00
k_11Max Translation rate of T3RNAP3*0.15min^-1Assumption, 1.34
k_12Max Transcription rate of GFP from Sal5.25nM/minAssumption, 0.00
k_12'Max Trasncription rate of GFP from T3RNAP5.25nM/minAssumption, 1.00
k_13Translation rate of GFP9*0.6min^-1Assumption, 1.00
k_srate of AND Gate 10.3nM^-10.00
k_s'rate of AND Gate 20.3nM^-10.18
K_1dissociation constant of AraC,tRNA14nM0.03
K_3dissociation constant of Sal,T7RNAP0.5nM0.00
K_5dissociation constant of T7RNAP,trigger CI3nM[http://bionumbers.hms.harvard.edu/bionumber.aspx?s=y&id=103592&ver=1 Ref]
K_6dissociation constant of CI,bistable CI40nMRef: iGEM2007 PKU Team
K_6'dissociation constant of CI434,bistable CI50nMRef: iGEM2007 PKU Team
K_7dissociation constant of CI,T3RNAP40nMRef: iGEM2007 PKU Team
K_7'dissociation constant of CI434,T3RNAP50nMRef: iGEM2007 PKU Team
K_9dissociation constant of CI,CI43440nMRef: iGEM2007 PKU Team




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