Team:SJTU-BioX-Shanghai/Project/project3.2
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Huanan1991 (Talk | contribs) (→Switch Modeling - Overview) |
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=Switch Modeling= | =Switch Modeling= | ||
{{Template:12SJTU_part_summary_head}} | {{Template:12SJTU_part_summary_head}} | ||
- | + | *'''State of Art''' | |
In our system either inner or outer signals can result in a rearrangement of our protein clusters. These interactions activated by signals can change the distances between enzymes, adjust the reaction rate and then finally alter the production amount. We assume that the random diffusion distance on the membrane is about 50-100 times the distance of our cluster interaction radius, and according to PDE model the concentration deceases with radius. | In our system either inner or outer signals can result in a rearrangement of our protein clusters. These interactions activated by signals can change the distances between enzymes, adjust the reaction rate and then finally alter the production amount. We assume that the random diffusion distance on the membrane is about 50-100 times the distance of our cluster interaction radius, and according to PDE model the concentration deceases with radius. | ||
+ | *'''Aim''' | ||
+ | Under these basic assumptions we want to simulate the reaction progress and explain the mechanisms of redirection. | ||
+ | *'''Achievements''' | ||
Working with a chain reaction which has different path ways, after getting a signal, the system will soon recruits our membrane protein parts and alters the dynamic equilibrium of products. In other words, alters the amount and ratio of our final products. | Working with a chain reaction which has different path ways, after getting a signal, the system will soon recruits our membrane protein parts and alters the dynamic equilibrium of products. In other words, alters the amount and ratio of our final products. |
Revision as of 17:46, 26 September 2012
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