Team:UFMG Brazil/modeling

From 2013.igem.org

(Difference between revisions)
(TMAO - Modeling)
(TMAO - Modeling)
Line 68: Line 68:
[[File:eq9a_tmao.png]]
[[File:eq9a_tmao.png]]
 +
 +
The total concentration of the enzyme is:
[[File:eq9_tmao.png]]
[[File:eq9_tmao.png]]
-
[[File:eq10_tmao.png]]
+
Then we considered  [[File:eq10_tmao.png]]  and imposed [[File:eq11_tmao.png]] and [[File:eq12_tmao.png]]
-
[[File:eq11_tmao.png]]
+
The system of equations also comes from:
-
 
+
-
[[File:eq12_tmao.png]]
+
[[File:eq13_tmao.png]]
[[File:eq13_tmao.png]]
-
[[File:eq14_tmao.png]]
+
Defining [[File:eq14_tmao.png]] and replacing we have:
[[File:eq15_tmao.png]]
[[File:eq15_tmao.png]]
 +
 +
In conclusion the rate of product appearance results
[[File:eq16_tmao.png]]
[[File:eq16_tmao.png]]

Revision as of 01:27, 27 September 2013


TMAO - Modeling

Labels and conventions

C_E: The enzymatic complex formed by TorT+TorS+TMAO, which reacts with TorR

C: intermediate component of the final enzymatic process

P: product of the enzymatic reaction

C_TS: Complex formed by TorT and TorS

C_TSM: Complex formed by TorT+TorS and one molecule of TMAO C_TM: Complex formed by TorT and TMAO



First Modeling

This is the simplest modeling process to be considered in our study. The product of the enzymatic process is collapsed in only one reaction that was placed at equilibrium.

Eq1 tmao.png

Imposing the equilibrium in the first reaction we have:

Eq2 tmao.png

The value of Ce is the initial enzyme concentration for the subsequent enzymatic reactions.

Eq3 tmao.png

Regarding the enzymatic reaction:

Eq4 tmao.png

The following relation holds E0 = Ce + C. And as usual imposing the steady state condition:

Eq5 tmao.png

With Ce = E0 - C

Solving for C:

Eq6 tmao.png with

Eq7 tmao.png.

In conclusion, we find

Eq8 tmao.png


Tmao firstModeling.png



Second Modeling

It was used the same pattern of reactions as before, but with a standpoint of "essential activation" (the first reaction is no longer considered to equilibrium). Some enzymes need to be activated to bind the substrate. In our case, the enzyme is activated by TorS and the activators are TMAO and TorT. The rate of appearance of product P depends on the concentration of activators. The equation that varies with respect to the previous case is:

Eq9a tmao.png

The total concentration of the enzyme is:

Eq9 tmao.png

Then we considered Eq10 tmao.png and imposed Eq11 tmao.png and Eq12 tmao.png

The system of equations also comes from:

Eq13 tmao.png

Defining Eq14 tmao.png and replacing we have:

Eq15 tmao.png

In conclusion the rate of product appearance results

Eq16 tmao.png

Tmao secondModeling.png


Our Sponsors

Reitoria-de-pesquisa-UFMG.jpg Reitoria-de-posgraduacao-UFMG.jpg Icb ufmg.jpg Bioquimica.jpg Bioinformatica.jpg INCT.jpg Inctv.jpg Nanobiofar.jpg Fapemig.jpg Sintesebiotecnologia.jpg