Tokyo/Model
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| - | == Follow Pareto's principle! == | + | ==E.coli Follow Pareto's principle! == |
''' To follow Pareto’s principle like an [[Tokyo/Concepts|ant society]], our model system must follow the three conditions shown in Fig. 1 to 3. In our model, all nodes (individual cells) have the same genetic circuits but take two states, A (worker) and B (idler), depending on the surrounding circumstances.''' | ''' To follow Pareto’s principle like an [[Tokyo/Concepts|ant society]], our model system must follow the three conditions shown in Fig. 1 to 3. In our model, all nodes (individual cells) have the same genetic circuits but take two states, A (worker) and B (idler), depending on the surrounding circumstances.''' | ||
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<br>Fig. 3 In the unstable state, some B (idler) changes to A (worker) while the others remain B (idler). Then the system becomes stable again. | <br>Fig. 3 In the unstable state, some B (idler) changes to A (worker) while the others remain B (idler). Then the system becomes stable again. | ||
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Revision as of 03:12, 25 October 2007
Abstract Concept & Model Requirements Genetic_circuit Works About_our_team
E.coli Follow Pareto's principle!
To follow Pareto’s principle like an ant society, our model system must follow the three conditions shown in Fig. 1 to 3. In our model, all nodes (individual cells) have the same genetic circuits but take two states, A (worker) and B (idler), depending on the surrounding circumstances.
Condition 1. Bistable state
Fig. 1 The system is stable when it contains both A (worker) and B (idler) at certain ratio.
Condition 2. Unstable state with node A removedまだ「node」が残っている!
Fig. 2 By removal of A (worker), the system containing only B (idler)becomes unstable.
Condition 3. From unstable to stable state
Fig. 3 In the unstable state, some B (idler) changes to A (worker) while the others remain B (idler). Then the system becomes stable again.
