Team:NTU-Singapore/Modelling/Parameter
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<div id="maincontent" style="margin-top:200px;"> | <div id="maincontent" style="margin-top:200px;"> | ||
- | = | + | =Parameters= |
+ | [[Image:800px-VanDusen_Botanical_Garden_maze.jpg|500px|center|thumb|What Parameters Should We USE??]] | ||
+ | |||
+ | |||
==Lactose controlled production of E7 + Imm== | ==Lactose controlled production of E7 + Imm== | ||
#LacI = A | #LacI = A | ||
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|} | |} | ||
- | ==Lysis | + | ==Detection & Lysis system== |
Some of the parameter values were obtained via trial and error as the values could not be found in literature. The values are chosen to produce the desired behaviour of the graph. More work has to be done to actually find out how much lysis protein quantity is really required for lysis of the cell as this is still an unknown. Readers may find some of the parameters unrealistic but the purpose of this exercise is to observe how changing certain parameters may affect the system overall output. We advise the reader to look more into the behaviour of the system rather than be focused upon the numerical values. | Some of the parameter values were obtained via trial and error as the values could not be found in literature. The values are chosen to produce the desired behaviour of the graph. More work has to be done to actually find out how much lysis protein quantity is really required for lysis of the cell as this is still an unknown. Readers may find some of the parameters unrealistic but the purpose of this exercise is to observe how changing certain parameters may affect the system overall output. We advise the reader to look more into the behaviour of the system rather than be focused upon the numerical values. | ||
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|kf | |kf | ||
|1.2 | |1.2 | ||
- | |[https://2008.igem.org/Team:NTU-Singapore/Modelling/Parameter/kF Trial And Error] | + | |<span style="font-size:16px;">[https://2008.igem.org/Team:NTU-Singapore/Modelling/Parameter/kF Trial And Error]</span> |
|- | |- | ||
|Reverse Reaction rate of Complex | |Reverse Reaction rate of Complex | ||
|kr | |kr | ||
|0.5 | |0.5 | ||
- | |[https://2008.igem.org/Team:NTU-Singapore/Modelling/Parameter/kr Trial And Error] | + | |<span style="font-size:16px;">[https://2008.igem.org/Team:NTU-Singapore/Modelling/Parameter/kr Trial And Error]</span> |
|- | |- | ||
|Rate of Logistic Growth | |Rate of Logistic Growth | ||
|r | |r | ||
|0.01 | |0.01 | ||
- | |[https://2008.igem.org/Team:NTU-Singapore/Modelling/Parameter/r_logistic Trial And Error] | + | |<span style="font-size:16px;">[https://2008.igem.org/Team:NTU-Singapore/Modelling/Parameter/r_logistic Trial And Error]</span> |
|- | |- | ||
|Varying Capacity | |Varying Capacity | ||
|A & B | |A & B | ||
|1 & 0.9 | |1 & 0.9 | ||
- | |[https://2008.igem.org/Team:NTU-Singapore/Modelling/Parameter/A_B Trial And Error] | + | |<span style="font-size:16px;">[https://2008.igem.org/Team:NTU-Singapore/Modelling/Parameter/A_B Trial And Error]</span> |
|- | |- | ||
|} | |} | ||
==References== | ==References== | ||
- | 1. [ | + | 1. [https://2007.igem.org/title=ETHZ/Parameters https://2007.igem.org/title=ETHZ/Parameters]<br> |
2. Grass G, Otto M, Fricke B, et al., FieF (YiiP) from Escherichia coli mediates decreased cellular accumulation of iron and relieves iron stress, ARCHIVES OF MICROBIOLOGY, Volume: 183 Issue: 1 Pages: 9-18 Published: JAN 2005 | 2. Grass G, Otto M, Fricke B, et al., FieF (YiiP) from Escherichia coli mediates decreased cellular accumulation of iron and relieves iron stress, ARCHIVES OF MICROBIOLOGY, Volume: 183 Issue: 1 Pages: 9-18 Published: JAN 2005 | ||
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Latest revision as of 15:14, 28 October 2008
|
Contents |
Parameters
Lactose controlled production of E7 + Imm
- LacI = A
- Lactose =B
- E7 = C
Iron and Ai2 controlled production of Lysis
- Ai-2 : A
- ai-2-phos : B
- LsrR : C
- SupD derivatives : D
- T7ptag : E
- Lysis : F
Parameter Estimation
Estimation of different parameters
# Transcription : | 70nt/s |
# Translation: | 40aa/s |
# Number of Essential Genes: | 297 |
# Number of mRNA per cell: | 4000 |
# Average mRNA half life: | 5min |
# Average mRNA length: | 1100 |
Assumptions
- Rate of transcription is dependent on length of gene
- Number of amino acids is 1/3 of the number of nucleotides in a gene
- Rate of Translation is dependent on number of nucleotides
- For each gene mRNA = 10 at steady state
- Rate of degradation of average mRNA = 1100/ 5 min
- Rate of degradation of protein is equivalent to time for cell division i.e. 40 min
E7 production system
Type | Parameter | Values | Comments |
Transcription Rate of Lac I gene | k1A | 21 | Made using Earlier assumptions |
Transcription Rate of E7 + Imm gene | k1C | 2.470588 | Made using Earlier assumptions |
Degradation Rate of Lac I mRNA | d1A | 0.76246 | Made using Earlier assumptions |
Transcription Rate of E7 + Imm mRNA | d1C | 0.0897 | Made using Earlier assumptions |
Translation Rate of Lac I mRNA | k2A | 36 | Made using Earlier assumptions |
Translation Rate of E7 + Imm mRNA | k2C | 4.23539 | Made using Earlier assumptions |
Protein Degradation Rate | d2A,d2C | 0.03465 | Made using Earlier assumptions |
Hill coefficeint for E7 + Imm | nC | 1 | This is obtained on the assumption that one Repressor Protein binds to one Lactose molecule complex |
Dissociation Constant for E7 + Imm | KC | 0.8 | [1] |
Constitutive Portion for E7 + Imm | aC | 0.5 | Estimate since a is between 0 and 1 Implication that Lactose may not be a very strongly Regulated Promoter |
Complex Formation Rate Between Lac I Repressor and Lactose | k3AB | 1 | Estimate. This is based on the assumption that the complex formation is only dependent on the concentrations of Lac I repressor and Lactose |
Detection & Lysis system
Some of the parameter values were obtained via trial and error as the values could not be found in literature. The values are chosen to produce the desired behaviour of the graph. More work has to be done to actually find out how much lysis protein quantity is really required for lysis of the cell as this is still an unknown. Readers may find some of the parameters unrealistic but the purpose of this exercise is to observe how changing certain parameters may affect the system overall output. We advise the reader to look more into the behaviour of the system rather than be focused upon the numerical values.
Type | Parameter | Values | Comments |
Phosphorylation Rate of Ai-2 | kPF | 1 | Estimate |
Dephosphorylation Rate of Ai-2 | kPB | 1 | Estimate |
Transcription Rate of LsrR gene | k1C | 4.402517 | Made using Earlier assumptions |
Transcription Rate of SupD gene | k1D | 46.667 | Made using Earlier assumptions |
Transcription Rate of t7pTag gene | k1E | 1.5556 | Made using Earlier assumptions |
Transcription Rate of Lysis gene | k1F | 28 | Made using Earlier assumptions |
Degradation Rate of LsrR mRNA | d1C | 0.159845 | Made using Earlier assumptions |
Degradation Rate of SupD mRNA | d1D | 1.694359 | Made using Earlier assumptions |
Degradation Rate of t7pTag mRNA | d1E | 0.056478 | Made using Earlier assumptions |
Degradation Rate of Lysis mRNA | d1F | 1.0166 | Made using Earlier assumptions |
Translation Rate of LsrR Protein | k2C | 7.54716 | Made using Earlier assumptions |
Translation Rate of t7 pTag Protein | k2E | 2.6667 | Made using Earlier assumptions |
Translation Rate of Lysis Protein | k2F | 48 | Made using Earlier assumptions |
Protein Degradation Rate | d2C,d2E,d2F | 0.03465 | Made using Earlier assumptions |
Hill coefficeint for SupD | nD | 50 | Trial And Error |
Hill coefficeint for t7 pTag | nE | 1 | Estimate. It is assuming that one molecule of iron ion is required to activate the production of one t7mRNA |
Hill coefficeint for Lysis | nF | 1 | Estimate. It is assumed that one molecule of t7 is required for activation of one Lysis mRNA |
Dissociation Constant for SupD | KD | 15 | [2] |
Dissociation Constant for t7 pTag | KE | 1 | Trial And Error |
Dissociation Constant for Lysis | KF | 1 | Trial And Error |
Constitutive Portion for SupD | aD | 0.01 | Trial and Error |
Constitutive Portion for t7 pTag | aE | 0.01 | Trial And Error |
Constitutive Portion for Lysis | aF | 0.0001 | Trial and Error |
Complex Formation Rate Between LsrR Repressor and Ai-2-Phosphorylated | k3BC | 0.01 | Trial and Error |
Complex Formation Rate Between SupD tRNA and t7 pTag mRNA | k3DE | 0.000000001 | Trial and Error |
Amount of Protein Kinase | S | 28.747 | From Earlier Assumptions |
GFP production system with logistic growth
Type | Parameter | Values | Comments |
Forward Reaction rate of Complex | kf | 1.2 | Trial And Error |
Reverse Reaction rate of Complex | kr | 0.5 | Trial And Error |
Rate of Logistic Growth | r | 0.01 | Trial And Error |
Varying Capacity | A & B | 1 & 0.9 | Trial And Error |
References
1. https://2007.igem.org/title=ETHZ/Parameters
2. Grass G, Otto M, Fricke B, et al., FieF (YiiP) from Escherichia coli mediates decreased cellular accumulation of iron and relieves iron stress, ARCHIVES OF MICROBIOLOGY, Volume: 183 Issue: 1 Pages: 9-18 Published: JAN 2005