Tokyo/Formulation/3.AHL-experssing model

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<br>となる.すると,3本目の式を2本目の式に代入することができ,結局RaとRbの2変数になる.これより,今までと同様RaとRbの相平面が描ける.
<br>となる.すると,3本目の式を2本目の式に代入することができ,結局RaとRbの2変数になる.これより,今までと同様RaとRbの相平面が描ける.
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The third equation is now substituted into the second. Now the variants being two, Ra and Rb, it is possible to draw the same type of phaseplane of Ra and Rb.  
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The third equation is substituted into the second. Now the variants being two, Ra and Rb, it is possible to draw the same type of phaseplane of Ra and Rb.  
<br>[[Image:expression3-3.jpg|300px|]]
<br>[[Image:expression3-3.jpg|300px|]]

Revision as of 04:06, 22 October 2007


大腸菌の中からAHLを産生している系を考えてみる.すると,微分方程式がもう一本増え3連立の微分方程式になる. Taking into consideration the system with AHL produced by E. coli themselves, it is necessary to add another differential equation; therefore, the whole system is expressed by three simultaneous equations.


Expression3-4.jpgParameter3-1.jpg


demenionless にすると,


Expression3-1.jpg


定常状態では, In the steady state,


Expression3-2.jpg


となる.すると,3本目の式を2本目の式に代入することができ,結局RaとRbの2変数になる.これより,今までと同様RaとRbの相平面が描ける. The third equation is substituted into the second. Now the variants being two, Ra and Rb, it is possible to draw the same type of phaseplane of Ra and Rb.


Expression3-3.jpg


今回も,パラメータの選び方により,安定点が一つのときと二つのときが出てくる. In this case as well, the parameter choice can result in one or two equibrium points.


Phaseplane3-1.jpg Phaseplane3-2.jpg Phaseplane3-3.jpg