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Team:ETH Zurich/Modeling/InitialStates
From 2013.igem.org
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<h1> Initial States </h1> | <h1> Initial States </h1> | ||
| - | <p align = ''justify''> It is important to obtain the steady state concentration of molecules in our circuit, since these values can be used as biologically meaningful initial conditions for subsequent simulations. To achieve this goal, we implemented a Single Cell Model. The cells plated on the game plate are from an overnight liquid culture. Thus, we assume that the cells have reached the steady state. It should be noted that the receiver cells grow in the absence of OHHL in the medium and this affects the concentrations of intracellular species whose production depends on OHHL.</p> | + | <p align = ''justify''> It is important to obtain the steady state concentration of molecules in our biological circuit, since these values can be used as biologically meaningful initial conditions for subsequent simulations. To achieve this goal, we implemented a Single Cell Model. The cells plated on the game plate are from an overnight liquid culture. Thus, we assume that the cells have reached the steady state. It should be noted that the receiver cells grow in the absence of OHHL in the medium and this affects the concentrations of intracellular species whose production depends on OHHL.</p> |
<h1> Initial state for the Mine Cells </h1> | <h1> Initial state for the Mine Cells </h1> | ||
| - | <p align = ''justify''> | + | <p align = ''justify''> The mine colonies produce the three proteins NagZ, LuxI and OHHL, that is important in our bio-game. The first two are constitutively produced, whereas the synthesis of OHHL is dependent of LuxI protein. In all three cases, degradation is modeled as linear degradation. Furthermore, the diffusion of OHHL across the cell membrane is modeled as proposed by [https://2013.igem.org/Team:ETH_Zurich/References#Garcia2004 Garcia-Ojalvo ''et. al.'', 2004.]<br><br> |
The ODEs for the states involved in the mine cells of the system are given below: <br><br> | The ODEs for the states involved in the mine cells of the system are given below: <br><br> | ||
Revision as of 01:38, 5 October 2013
Initial States
It is important to obtain the steady state concentration of molecules in our biological circuit, since these values can be used as biologically meaningful initial conditions for subsequent simulations. To achieve this goal, we implemented a Single Cell Model. The cells plated on the game plate are from an overnight liquid culture. Thus, we assume that the cells have reached the steady state. It should be noted that the receiver cells grow in the absence of OHHL in the medium and this affects the concentrations of intracellular species whose production depends on OHHL.
Initial state for the Mine Cells
The mine colonies produce the three proteins NagZ, LuxI and OHHL, that is important in our bio-game. The first two are constitutively produced, whereas the synthesis of OHHL is dependent of LuxI protein. In all three cases, degradation is modeled as linear degradation. Furthermore, the diffusion of OHHL across the cell membrane is modeled as proposed by Garcia-Ojalvo et. al., 2004.
The ODEs for the states involved in the mine cells of the system are given below:
Initial state for the Receiver Cells
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