Difference between revisions of "Stoichiometric Matrix (analysis)"

From BioUML platform
Jump to: navigation, search
(Automatic synchronization with BioUML)
 
(Automatic synchronization with BioUML)
 
(13 intermediate revisions by one user not shown)
Line 1: Line 1:
 +
;Analysis title
 +
:[[File:Default-analysis-icon.png]] Stoichiometric Matrix
 +
;Provider
 +
:[[Institute of Systems Biology]]
 +
;Class
 +
:{{Class|biouml.plugins.modelreduction.StoichiometricAnalysis}}
 +
;Plugin
 +
:[[Biouml.plugins.modelreduction (plugin)|biouml.plugins.modelreduction (Model reduction plug-in)]]
 +
 +
==== Description ====
 
The stoichiometric matrix ''N'' provides the linear relationship of the model between the flux rates of the (enzymatic) reactions and the derivatives of the reactant (enzyme) concentrations.
 
The stoichiometric matrix ''N'' provides the linear relationship of the model between the flux rates of the (enzymatic) reactions and the derivatives of the reactant (enzyme) concentrations.
  
 
If a reaction network has ''n'' reactions and ''m'' participating molecular species then the dynamic mass balance equation can be written as
 
If a reaction network has ''n'' reactions and ''m'' participating molecular species then the dynamic mass balance equation can be written as
  
:: [[File:DAE-models-Stoichiometric-Matrix-stoich1.png]]
+
:: [[File:Differential-algebraic-equations-Stoichiometric-Matrix-stoich1.png]]
  
 
where ''v'' is the flux vector and ''S'' is the concentration vector:
 
where ''v'' is the flux vector and ''S'' is the concentration vector:
  
:: [[File:DAE-models-Stoichiometric-Matrix-stoich2.png]]
+
:: [[File:Differential-algebraic-equations-Stoichiometric-Matrix-stoich2.png]]
  
 
==== Example ====
 
==== Example ====
Line 13: Line 23:
 
Consider the following system of reactions:
 
Consider the following system of reactions:
  
:: [[File:DAE-models-Stoichiometric-Matrix-stoich3.png]]
+
:: [[File:Differential-algebraic-equations-Stoichiometric-Matrix-stoich3.png]]
  
 
This systems comprises four reactions and five different molecular species. The stoichiometry matrix for this system can be written as:
 
This systems comprises four reactions and five different molecular species. The stoichiometry matrix for this system can be written as:
  
:: [[File:DAE-models-Stoichiometric-Matrix-stoich4.png]]
+
:: [[File:Differential-algebraic-equations-Stoichiometric-Matrix-stoich4.png]]
  
 
where the rows correspond to ''S''<sub>1</sub>, ''S''<sub>2</sub>, ''S''<sub>3</sub>, ''S''<sub>4</sub> and ''S''<sub>5</sub>, respectively. Note that the process of converting a reaction scheme into a stoichiometry matrix can be a lossy transformation, for example, the stoichiometries in the second reaction simplify when included in the matrix.
 
where the rows correspond to ''S''<sub>1</sub>, ''S''<sub>2</sub>, ''S''<sub>3</sub>, ''S''<sub>4</sub> and ''S''<sub>5</sub>, respectively. Note that the process of converting a reaction scheme into a stoichiometry matrix can be a lossy transformation, for example, the stoichiometries in the second reaction simplify when included in the matrix.
 
[[Category:Analyses]]
 
[[Category:Analyses]]
[[Category:DAE models (analyses group)]]
+
[[Category:Differential algebraic equations (analyses group)]]
 +
[[Category:ISB analyses]]
 +
[[Category:Autogenerated pages]]

Latest revision as of 18:14, 9 December 2020

Analysis title
Default-analysis-icon.png Stoichiometric Matrix
Provider
Institute of Systems Biology
Class
StoichiometricAnalysis
Plugin
biouml.plugins.modelreduction (Model reduction plug-in)

[edit] Description

The stoichiometric matrix N provides the linear relationship of the model between the flux rates of the (enzymatic) reactions and the derivatives of the reactant (enzyme) concentrations.

If a reaction network has n reactions and m participating molecular species then the dynamic mass balance equation can be written as

Differential-algebraic-equations-Stoichiometric-Matrix-stoich1.png

where v is the flux vector and S is the concentration vector:

Differential-algebraic-equations-Stoichiometric-Matrix-stoich2.png

[edit] Example

Consider the following system of reactions:

Differential-algebraic-equations-Stoichiometric-Matrix-stoich3.png

This systems comprises four reactions and five different molecular species. The stoichiometry matrix for this system can be written as:

Differential-algebraic-equations-Stoichiometric-Matrix-stoich4.png

where the rows correspond to S1, S2, S3, S4 and S5, respectively. Note that the process of converting a reaction scheme into a stoichiometry matrix can be a lossy transformation, for example, the stoichiometries in the second reaction simplify when included in the matrix.

Personal tools
Namespaces

Variants
Actions
BioUML platform
Community
Modelling
Analysis & Workflows
Collaborative research
Development
Virtual biology
Wiki
Toolbox