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Team:KULeuven/Modelling/Vanillin Production
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Because COMT and SAM8 are regulated by the amount of mRNA key its worthy to investigate the change of COMT and SAM8 production in function of the input amount of mRNA key. | Because COMT and SAM8 are regulated by the amount of mRNA key its worthy to investigate the change of COMT and SAM8 production in function of the input amount of mRNA key. | ||
| + | Because Km of the reaction from caffeic acid to ferulic acid is well above the expected concentration of COMT in the cell, the steady state amount of COMT is proportional to the input of mRNA key. | ||
[[image:COMT.png|750px|center|thumb|Concentration of COMT in function of time and input key]] | [[image:COMT.png|750px|center|thumb|Concentration of COMT in function of time and input key]] | ||
Revision as of 14:40, 4 September 2009
Contents |
Vanillin Production
overview
The vanillin synthesis consists of a five step process starting from tyrosine. By locking both the transcription of the Sam 8 and COMT enzyme we prevent vanillin synthesis without the presence of RIBOKEY. E. coli controls its own tyrosine production which is an non essential amino acid. However,should this be insufficient, we can always add extra tyrosine. The production process will be tested in two steps. First, from tyrosine to ferulic acid; then from ferrulic acid to vanillin.
Models
Simulation
Because COMT and SAM8 are regulated by the amount of mRNA key its worthy to investigate the change of COMT and SAM8 production in function of the input amount of mRNA key. Because Km of the reaction from caffeic acid to ferulic acid is well above the expected concentration of COMT in the cell, the steady state amount of COMT is proportional to the input of mRNA key.
