Team:Tokyo-NoKoGen/Project/modelling

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Modeling
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<font size="27">Modeling</font>
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We aimed to build the mathematical model using MATLAB R2012b SymBiology (<A Href="http://www.mathworks.com/">http://www.mathworks.com/</A>). However, since we had no knowledge and no sufficient data, so we could not complete the modeling.  
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 We aimed to build the mathematical model using MATLAB R2012b SymBiology (<A Href="http://www.mathworks.com/">http://www.mathworks.com/</A>). However, since we had no knowledge and no sufficient data, so we could not complete the modeling.  
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Primary reaction equations are bellow:
Primary reaction equations are bellow:
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(d) RCOOH + ATP + luxE-luxC -> PPi + AMP + luxE-luxC-RCO
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(c) RCOOH + ATP + luxE-luxC -> PPi + AMP + luxE-luxC-RCO
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(e) luxE-luxC-RCO + NADPH -> RCHO + luxE-luxC + NADP+
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(d) luxE-luxC-RCO + NADPH -> RCHO + luxE-luxC + NADP+
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LuxE and luxC involve in the decanal recycling. The recycling pathway makes luminous bacteria possible to emit light without substrate from outside.
LuxE and luxC involve in the decanal recycling. The recycling pathway makes luminous bacteria possible to emit light without substrate from outside.
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<B>Reference</B>
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Welham PA, Stekel DJ., Mathematical model of the Lux luminescence system in the terrestrial bacterium Photorhabdus luminescens., Mol Biosyst. 2009 Jan;5(1):68-76.
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Latest revision as of 03:22, 27 September 2012

Modeling

 We aimed to build the mathematical model using MATLAB R2012b SymBiology (http://www.mathworks.com/). However, since we had no knowledge and no sufficient data, so we could not complete the modeling.
For building the mathematical model of lux operon, we investigated about reaction mechanism of lux operon. Figure.1 is described reaction of Lux operon.



Primary reaction equations are bellow:

(a) FMNH2 + O2 + RCHO -> FMN + H2O + RCOOH + Light
LuxAB, a luciferase, catalyzes the reaction (a). RCHO is substrate of luciferase (luciferin).

(b) FMN + NADPH + H+ -> FMNH2 + NADP+
This is FMN reduction pathway. By this reaction, It becomes possible to reuse FMN produced in reaction (a). The reaction is operated via a “Ping-pong Bi-bi” mechanism.

(c) RCOOH + ATP + luxE-luxC -> PPi + AMP + luxE-luxC-RCO

(d) luxE-luxC-RCO + NADPH -> RCHO + luxE-luxC + NADP+
LuxE and luxC involve in the decanal recycling. The recycling pathway makes luminous bacteria possible to emit light without substrate from outside.


Reference
Welham PA, Stekel DJ., Mathematical model of the Lux luminescence system in the terrestrial bacterium Photorhabdus luminescens., Mol Biosyst. 2009 Jan;5(1):68-76.