Team:Paris/Analysis/Construction2
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- | {{Paris/Header| | + | {{Paris/Header|System Improvements Description}} |
- | + | {{Paris/Section_contents_analysis}} | |
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- | + | == Introduction == | |
- | + | ||
- | + | In this section, we investigate possible improvements of the [[Team:Paris/Network_analysis_and_design/Core_system/Model_construction|core system]]. Our objective is twofold : the system has to provide sustained oscillations and these oscillations should be synchronized amongst a population of cells. To this aim we explore designs inspired by quorum sensing and model in a chemostat cell growth and species diffusion outside cells. We consider two models relying on different designs principles. | |
- | To | + | |
+ | {{Paris/Toggle|To join our quest for alternatives click here!|Team:Paris/DescriptionMoreModelConstruction2}} | ||
- | == | + | == Modeling Alternatives == |
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- | + | The proposed systems are: | |
- | + | {|align="center" cellpadding="0" cellspacing="20" | |
- | [[Image: | + | |-style="background: #D4E2EF; text-align: center;" |
- | + | |'''HSL mediated coupled oscillators''' | |
- | + | |'''HSL mediated simple oscillator''' | |
- | [[Image: | + | |-style="background: #ffffff; text-align: center;" |
+ | |[[Image:Bimo.png|400px]] | ||
+ | |[[Image:Unimo.png|400px]] | ||
+ | |} | ||
+ | *In the first system, we use a modular design. Since the core system is a 'poor' oscillator we hope that by coupling it with a 'good' oscillator we could obtain sustained oscillations in the whole system. Thus, we consider that the core system is one of the modules of the system and that the other module is a two gene oscillator system presented in [[Team:Paris/Bibliography|[2]]] that accounts for quorum sensing. We call this alternative the 'HSL mediated coupled oscillators'. | ||
- | + | *In the second system, namely the 'HSL mediated simple oscillator', we rewire the architecture of the core system to introduce delay via HSL export in the environment in a single circuit. | |
- | + | ||
- | + | Both the coupled and simple oscillators describe events that happen not only at the cellular level (as in the core system) but also at the population level due to interactions needed between a cell and its environment. | |
- | + | ||
- | + | In the following sections, we first describe the [[Team:Paris/Network_analysis_and_design/System_improvements/Description#Common_Description|common]] part among the two proposed models and then focus our attention to the [[Team:Paris/Network_analysis_and_design/System_improvements/Description#Alternatives_Description| alternatives description]] where the characteristics that are specific to each of the modeling alternatives are presented. | |
- | + | <!-- MORE DETAILS ABOUT THE CHEMOST | |
+ | * A chemostat is generally used to keep bacteria volume constant in the medium. The constant conditions provided by the chemostat help us to control bacteria growth rate. | ||
+ | |||
+ | * We assume a logistic model to determine bacteria growth in the chemostat, in agreement with standar procedures (reference). This hypothesis implies that bacteria growth rate has to be proportional to the existing bacteria population size and to the amount of available resources in the medium. | ||
--> | --> | ||
+ | <!-- MORE DETAILS ABOUT QS | ||
+ | * As discussed [[Team:Paris/Network_analysis_and_design/System_improvements|previously]], we choose to use quorum sensing as a way to improve the oscillating behaviour of our [[Team:Paris/Network_analysis_and_design/Core_system|core system]] and, at the same time, as a way to archeive population synchronization. When a cultive of bacteria is synchronized, it means that every single cell express in average the same genes in unison. As a result, a maximum level of fluorescense is obtained. | ||
+ | --> | ||
+ | |||
+ | == Common Description == | ||
+ | {|align="center" | ||
+ | |-style="background: #ffffff; text-align: left;" | ||
+ | |Logistic growth in chemostat: | ||
+ | |-style="background: #ffffff; text-align: center;" | ||
+ | |[[Image:DescriptionCommonDynamicsPart1.png|center|600px]] | ||
+ | |-style="background: #ffffff; text-align: left;" | ||
+ | |Quorum sensing by HSL diffusion: | ||
+ | |-style="background: #ffffff; text-align: center;" | ||
+ | |[[Image:DescriptionCommonDynamicsPart2.png|center|600px]] | ||
+ | |-style="background: #ffffff; text-align: left;" | ||
+ | |As in [[Team:Paris/Network_analysis_and_design/Core_system|core system]] flhDC inhibited by EnvZ and fliA activated by FlhDC and FliA: | ||
+ | |-style="background: #ffffff; text-align: center;" | ||
+ | |[[Image:DescriptionCommonDynamicsPart3.png|center|600px]] | ||
+ | |} | ||
+ | {{Paris/Toggle|read more on common dynamics...|Team:Paris/DescriptionDetailsS4-S2Part1}} | ||
+ | |||
+ | == Alternatives Description == | ||
+ | {|align="center" cellpadding="2" cellspacing="10" | ||
+ | |-style="background: #D4E2EF; text-align: center;" | ||
+ | |'''HSL mediated coupled oscillators''' | ||
+ | |'''HSL mediated simple oscillator''' | ||
+ | |-style="background: #ffffff; text-align: left;" | ||
+ | |Core system coupled with an oscillator: | ||
+ | |Modified core system that accounts for quorum sensing: | ||
+ | |-style="background: #ffffff; text-align: center;" | ||
+ | |[[Image:SumaryBiMo.png|450px]] | ||
+ | |[[Image:SumaryUniMo.png|350px]] | ||
+ | |} | ||
+ | {{Paris/Toggle|read more on alternatives description...|Team:Paris/DescriptionDetailsS4-S2Part2}} | ||
+ | == Kinetic parameter values== | ||
- | + | Remarkably, almost all parameter values are available from experimental measurements in [[Team:Paris/Bibliography|[1]]] and from the work of Garcia-Ojalvo in [[Team:Paris/Bibliography|[2]]]. Additionally minimizing the number of parameters is possible by rescaling as done for the core system. Relevant values for the sole two missing parameters are found by exploiting a modularity assumption as described in the [[Team:Paris/Network_analysis_and_design/System_improvements/Analysis|next section]]. The following table summarize our findings: | |
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<center> | <center> | ||
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! colspan="8" | | ! colspan="8" | | ||
|- style="background: #649CD7;" | | |- style="background: #649CD7;" | | ||
- | |style="background: #ffffff; text-align:center;" |'''Chemostat''' | + | |style="background: #ffffff; text-align:center;" width=20% |'''Chemostat''' |
|Parameter | |Parameter | ||
|Meaning | |Meaning | ||
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|Source | |Source | ||
|- style="background: #dddddd;"| | |- style="background: #dddddd;"| | ||
- | | ! rowspan="5" style="background: #ffffff;" | | + | | ! rowspan="5" style="background: #ffffff;" | |
|style="background: #D4E2EF;" | α<sub>cell</sub> | |style="background: #D4E2EF;" | α<sub>cell</sub> | ||
|style="background: #dddddd;"| Growth rate | |style="background: #dddddd;"| Growth rate | ||
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| style="background: #dddddd;"|1 | | style="background: #dddddd;"|1 | ||
|style="background: #dddddd;"|min<sup>-1</sup> | |style="background: #dddddd;"|min<sup>-1</sup> | ||
- | |style="background: #dddddd;"| [[Team:Paris/ | + | |style="background: #dddddd;"| [[Team:Paris/Remarks|wet-lab]] |
|- style="background: #dddddd;"| | |- style="background: #dddddd;"| | ||
| style="background: #D4E2EF;"| c<sub>max</sub> | | style="background: #D4E2EF;"| c<sub>max</sub> | ||
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| style="background: #dddddd;"| 0.1 | | style="background: #dddddd;"| 0.1 | ||
| style="background: #dddddd;"| µm<sup>3</sup> | | style="background: #dddddd;"| µm<sup>3</sup> | ||
- | | style="background: #dddddd;"| [[Team:Paris/ | + | | style="background: #dddddd;"| [[Team:Paris/Bibliography|[3]]] |
|- style="background: #dddddd;"| | |- style="background: #dddddd;"| | ||
| style="background: #D4E2EF;"| D<sub>renewal</sub> | | style="background: #D4E2EF;"| D<sub>renewal</sub> | ||
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| style="background: #dddddd;"| 0.1 | | style="background: #dddddd;"| 0.1 | ||
| style="background: #dddddd;"| min<sup>-1</sup> | | style="background: #dddddd;"| min<sup>-1</sup> | ||
- | | style="background: #dddddd;"| [[Team:Paris/ | + | | style="background: #dddddd;"| [[Team:Paris/Remarks|wet-lab]] ([[Team:Paris/Bibliography|[3]]]) |
|- style="background: #dddddd;"| | |- style="background: #dddddd;"| | ||
| style="background: #D4E2EF;"| d | | style="background: #D4E2EF;"| d | ||
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| style="background: #dddddd;"| 0.5 | | style="background: #dddddd;"| 0.5 | ||
| style="background: #dddddd;"| min<sup>-1</sup> | | style="background: #dddddd;"| min<sup>-1</sup> | ||
- | | style="background: #dddddd;"|[[Team:Paris/ | + | | style="background: #dddddd;"|[[Team:Paris/Remarks|wet-lab]] |
|- style="background: #ffffff;" | |- style="background: #ffffff;" | ||
! colspan="8" | | ! colspan="8" | | ||
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|Source | |Source | ||
|- style="background: #dddddd;"| | |- style="background: #dddddd;"| | ||
- | | ! rowspan="6" style="background: #ffffff;" | | + | | ! rowspan="6" style="background: #ffffff;" | |
| style="background: #D4E2EF;" |γ<sub>HSL</sub> | | style="background: #D4E2EF;" |γ<sub>HSL</sub> | ||
| style="background: #dddddd;"|Degradation rate | | style="background: #dddddd;"|Degradation rate | ||
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| style="background: #dddddd;"|0.2690 | | style="background: #dddddd;"|0.2690 | ||
| style="background: #dddddd;"|min<sup>-1</sup> | | style="background: #dddddd;"|min<sup>-1</sup> | ||
- | | style="background: #dddddd;"|[[Team:Paris/ | + | | style="background: #dddddd;"|[[Team:Paris/Remarks|see remarks]] |
|- style="background: #dddddd;"| | |- style="background: #dddddd;"| | ||
| style="background: #D4E2EF;"|γ<sub>HSL<sub>ext</sub></sub> <br> <br> | | style="background: #D4E2EF;"|γ<sub>HSL<sub>ext</sub></sub> <br> <br> | ||
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| style="background: #dddddd;"|0.5380 | | style="background: #dddddd;"|0.5380 | ||
|style="background: #dddddd;"| min<sup>-1</sup> | |style="background: #dddddd;"| min<sup>-1</sup> | ||
- | | style="background: #dddddd;"|[[Team:Paris/ | + | | style="background: #dddddd;"|[[Team:Paris/Bibliography|[2]]] |
|- style="background: #dddddd;"| | |- style="background: #dddddd;"| | ||
| style="background: #D4E2EF;" |β<sub>HSL</sub> | | style="background: #D4E2EF;" |β<sub>HSL</sub> | ||
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| style="background: #dddddd;"|16 | | style="background: #dddddd;"|16 | ||
| style="background: #dddddd;"|min<sup>-1</sup> | | style="background: #dddddd;"|min<sup>-1</sup> | ||
- | | style="background: #dddddd;"|[[Team:Paris/ | + | | style="background: #dddddd;"|[[Team:Paris/Bibliography|∅]] |
|- style="background: #dddddd;"| | |- style="background: #dddddd;"| | ||
| style="background: #D4E2EF;" |η | | style="background: #D4E2EF;" |η | ||
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| style="background: #dddddd;"|505 | | style="background: #dddddd;"|505 | ||
| style="background: #dddddd;"|min<sup>-1</sup> | | style="background: #dddddd;"|min<sup>-1</sup> | ||
- | | style="background: #dddddd;"|[[Team:Paris/ | + | | style="background: #dddddd;"|[[Team:Paris/Bibliography|[2]]] |
|- style="background: #dddddd;"| | |- style="background: #dddddd;"| | ||
| style="background: #D4E2EF;" |n<sub>HSL</sub> | | style="background: #D4E2EF;" |n<sub>HSL</sub> | ||
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| style="background: #dddddd;"|4 | | style="background: #dddddd;"|4 | ||
| style="background: #dddddd;"| | | style="background: #dddddd;"| | ||
- | | style="background: #dddddd;"|[[Team:Paris/ | + | | style="background: #dddddd;"|[[Team:Paris/Bibliography|[3]]] |
|- style="background: #dddddd;"| | |- style="background: #dddddd;"| | ||
| style="background: #D4E2EF;" |θ<sub>HSL</sub> | | style="background: #D4E2EF;" |θ<sub>HSL</sub> | ||
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| style="background: #dddddd;"| | | style="background: #dddddd;"| | ||
| style="background: #dddddd;"|0.5 | | style="background: #dddddd;"|0.5 | ||
- | | style="background: #dddddd;"|[[Team:Paris/ | + | | style="background: #dddddd;"|[[Team:Paris/Remarks|c.u.]] |
- | | style="background: #dddddd;"|[[Team:Paris/ | + | | style="background: #dddddd;"|[[Team:Paris/Bibliography|[3]]] |
|}</center> | |}</center> | ||
+ | |||
+ | |||
+ | {{Paris/Navig|Team:Paris/Analysis}} |
Latest revision as of 03:18, 30 October 2008
System Improvements Description
Other pages:
IntroductionIn this section, we investigate possible improvements of the core system. Our objective is twofold : the system has to provide sustained oscillations and these oscillations should be synchronized amongst a population of cells. To this aim we explore designs inspired by quorum sensing and model in a chemostat cell growth and species diffusion outside cells. We consider two models relying on different designs principles. ↓ To join our quest for alternatives click here! ↑
Modeling AlternativesThe proposed systems are:
Both the coupled and simple oscillators describe events that happen not only at the cellular level (as in the core system) but also at the population level due to interactions needed between a cell and its environment. In the following sections, we first describe the common part among the two proposed models and then focus our attention to the alternatives description where the characteristics that are specific to each of the modeling alternatives are presented. Common Description
↓ read more on common dynamics... ↑
Alternatives Description
↓ read more on alternatives description... ↑
Kinetic parameter valuesRemarkably, almost all parameter values are available from experimental measurements in [1] and from the work of Garcia-Ojalvo in [2]. Additionally minimizing the number of parameters is possible by rescaling as done for the core system. Relevant values for the sole two missing parameters are found by exploiting a modularity assumption as described in the next section. The following table summarize our findings:
|