Difference between revisions of "Team:IIT Delhi/modelling"
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After production of ferroheme, the cytochrome –c protein and the ferroheme are transported to the periplasm, where they form a complex via covalent bonding. | After production of ferroheme, the cytochrome –c protein and the ferroheme are transported to the periplasm, where they form a complex via covalent bonding. | ||
At this point the protein becomes completely active. | At this point the protein becomes completely active. |
Revision as of 13:34, 18 September 2015
IntroductionThree of the proteins required in the project are cytochrome c proteins (haem proteins). Hence, the heme biosynthesis pathway needs to be modelled. Pathway of heme production in E. coli (C-5 pathway from glutamate) |
Mathematical model
Pathway of heme production in E. coli (C-5 pathway from glutamate):
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The rest of the reactions in this pathway are assumed to proceed via Henri-Michaelis-Menten kinetics:
Enzyme | Km (micromol/l) |
---|---|
Uroporphyrinogen decarboxylase ( hemE) | 6.0 |
Coproporphyrinogen iii dehydrogenase | 210 |
Protoporphyrinogen dehydrogenase (HemG) | 7 |
Ferrochelatase(hemH) | 4.7 |
Glutamate-tRNA synthase | 1.9 |
Glutamate-1-semialdehyde 2,1-aminomutase | 46 |
Porphobilinogen synthase | 800 |
Km and Vmax values of hydroxymethylbilane synthase:
Stimulation
After putting in the rate laws and the values of various parameters in Copasi software, following graphs were obtained for the concentrations and rate of formation of various species involved (Copasi has been used for obtaining all graphs and mathematical equations):
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Fig 1: Amount of ferroheme b formed in the cytoplasm. |
Fig 2: Amount of ferroheme transported to the periplasm |
Fig 3: rate of formation of ferroheme in the cytosol |
Fig 4: rate of transfer of ferroheme from the cytoplasm to the periplasm. |
The following are the differential equations associated with the above processes:
Interpretation
After this, the following reactions take place, depending on the protein produced:
1. Nitrite reduction (nrfA protein; Km = 0.11 mM)
NO2- ----> NH3
Differential equations involved:
Interpretation
After this, the following reactions take place, depending on the protein produced:
1. Nitrite reduction (nrfA protein; Km = 0.11 mM)
NO2- ----> NH3
Differential equations involved:
Interpretation
After this, the following reactions take place, depending on the protein produced:
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