Team:Uppsala-Sweden/Modelling

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{{Uppsala-Sweden Template}}
{{Uppsala-Sweden Template}}
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==Modelling of Advanced Ethanol Production==
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==Modelling of Ethanol Production==
For our modell we have some basic assumptions that are
For our modell we have some basic assumptions that are
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[[Image:ek_0.png]]
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(a)[[Image:ek_0.png]]
Where ''e'' is the amount of free enzyme and ''es'' is the amount of enzyme bound to substrate.
Where ''e'' is the amount of free enzyme and ''es'' is the amount of enzyme bound to substrate.
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[[Image:ek_1_2.png]]
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(b & c) [[Image:ek_1_2.png]]
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Where ''ks'' is the rate of substrate formation (flux of the glycolysis), ''kcat'' is the maximum number of enzymatic reactions catalyzed per second, ''kt'' is the rate constant loss of substrate to other pathways, in our case primarily to the Krebbs cycle, ''Km'' is the substrate concentration at half the maximum reaction rate (''Vmax'') and ''s'' is the substrate concentration.
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Where ''ks'' is the rate of substrate formation (flux of the glycolysis), ''kcat'' is the maximum number of enzymatic reactions catalyzed per second, ''kt'' is the rate constant for the loss of substrate to other pathways, in our case primarily to the Krebbs cycle, ''Km'' is the substrate concentration at half the maximum reaction rate (''Vmax'') and ''s'' is the substrate concentration.
Having the ''Km'' and ''Kcat'' values gives ''e0'' from the level of product formation.
Having the ''Km'' and ''Kcat'' values gives ''e0'' from the level of product formation.
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[[Image:ek_3.png]]
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(d) [[Image:ek_3.png]]
3. Having ''e0'' and letting ''kt'' go towards zero gives ''ks''. ''kt'' can be assumed to approach zero provided that the Krebbs cycle is the main native consumer of pyruvate and that the inhibition of the PDC is successful.
3. Having ''e0'' and letting ''kt'' go towards zero gives ''ks''. ''kt'' can be assumed to approach zero provided that the Krebbs cycle is the main native consumer of pyruvate and that the inhibition of the PDC is successful.
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[[Image:ek_4.png]]
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(e) [[Image:ek_4.png]]
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4. Assuming ''Ks'' to be constant within the interval and assuming steady-state
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4. Assuming ''ks'' to be constant within the interval and assuming steady-state
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[[Image:ek_5.png]]
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(f) [[Image:ek_5.png]]
S is a function of f(x,y) where x is proportional to e0 and y is proportional to kt
S is a function of f(x,y) where x is proportional to e0 and y is proportional to kt
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[[Image:ek_6.png]]
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(g) [[Image:ek_6.png]]
Measure for different x and y and fit the function
Measure for different x and y and fit the function
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[[Image:ek_7.png]]
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(h) [[Image:ek_7.png]]
{{Uppsala-Sweden_Footer}}
{{Uppsala-Sweden_Footer}}

Revision as of 13:51, 21 October 2009




Modelling of Ethanol Production

For our modell we have some basic assumptions that are

1. Co-evolution of the of the ethanol producing pathway, making km and kcat being highly similar for pdc as well as ADH. This assumption makes it possible for us to model the system as a single step reaction from pyruvate to ethanol. Greatly increasing the ease of simulation.

2. Assuming quasi steady state (Michaelis Menten Kinetics), that is constant total enzyme concentration. This is reasonable during log-phase before ethanol starts to inhibit growth.


(a)Ek 0.png

Where e is the amount of free enzyme and es is the amount of enzyme bound to substrate.

(b & c) Ek 1 2.png

Where ks is the rate of substrate formation (flux of the glycolysis), kcat is the maximum number of enzymatic reactions catalyzed per second, kt is the rate constant for the loss of substrate to other pathways, in our case primarily to the Krebbs cycle, Km is the substrate concentration at half the maximum reaction rate (Vmax) and s is the substrate concentration.

Having the Km and Kcat values gives e0 from the level of product formation.

(d) Ek 3.png


3. Having e0 and letting kt go towards zero gives ks. kt can be assumed to approach zero provided that the Krebbs cycle is the main native consumer of pyruvate and that the inhibition of the PDC is successful.

(e) Ek 4.png


4. Assuming ks to be constant within the interval and assuming steady-state

(f) Ek 5.png


S is a function of f(x,y) where x is proportional to e0 and y is proportional to kt

(g) Ek 6.png


Measure for different x and y and fit the function

(h) Ek 7.png






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