Difference between revisions of "Flux balance analysis"
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− | [https://www.ncbi.nlm.nih.gov/labs/pmc/articles/PMC3108565/ <b><i>Constraint-based flux balance analysis (FBA)</i></b>] is a mathematical approach that enables to provide a holistic view of the cellular metabolism in pro- and eukaryotes and predict flux distribution in a global (on a genome-scale level) metabolic network both under a range of environmental conditions and genetic perturbations. The maximization of the biomass equation is typically used as an objective function of the model for FBA. | + | [https://www.ncbi.nlm.nih.gov/labs/pmc/articles/PMC3108565/ <b><i>Constraint-based flux balance analysis (FBA)</i></b>] is a mathematical approach that enables to provide a holistic view of the cellular metabolism in pro- and eukaryotes and predict flux distribution in a global (on a genome-scale level) metabolic network both under a range of environmental conditions and genetic perturbations. The maximization of the biomass equation is typically used as an objective function of the model for FBA. There are two ways to run the analysis in the BioUML. Below is a step-by-step instruction for both ways. |
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==FBA via Diagram== | ==FBA via Diagram== | ||
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− | If the {{Type link|diagram}} contains fluxes properties written as fbc extension of the SBML "FBC table" tab can be used. Advantage of this tab usage is lack of necessity in creation table with data about fluxes: it will be created automatically using {{Type link|diagram}}. The step-by-step instruction of the analysis will be demonstrated on the <I>[https://ict.biouml.org/bioumlweb/#de=data/Collaboration/FBA%20models/Data/Geobacillus%20icigianus/iMK1321_Model iMK1321]</i> model for Geobacillus icigianus [https://doi.org/10.3390/microorganisms8071002 recently published] by our research group. | + | If the {{Type link|diagram}} contains fluxes properties written as fbc extension of the SBML "FBC table" tab can be used. Advantage of this tab usage is lack of necessity in creation table with data about fluxes: it will be created automatically using {{Type link|diagram}}. The step-by-step instruction of the analysis will be demonstrated on the <I>[https://ict.biouml.org/bioumlweb/#de=data/Collaboration/FBA%20models/Data/Geobacillus%20icigianus/iMK1321_Model iMK1321]</i> model for <i>Geobacillus icigianus</i> [https://doi.org/10.3390/microorganisms8071002 recently published] by our research group. |
[[File:FBA_viaDiagram_Fig1.png|1000px]] | [[File:FBA_viaDiagram_Fig1.png|1000px]] | ||
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<h5> Flux Balance tab in the Operations Field</h5> | <h5> Flux Balance tab in the Operations Field</h5> | ||
− | To launch the analysis, move to the <b><i>Flux Balance</i></b> tab in the <b>Operations Field</b> (Figure 1, marked red below) and push the corresponding button in upper left corner of the tab (marked red as 3). | + | To launch the analysis, move to the <b><i>Flux Balance</i></b> tab in the <b>Operations Field</b> (Figure 1, marked red below) and push the corresponding button in upper left corner of the tab (marked red as 3). It will lead to pop-up window where a specification of the analysis settings is required. |
[[File:FBA_viaDiagram_Fig2.png|1000px]] | [[File:FBA_viaDiagram_Fig2.png|1000px]] | ||
− | <span style="font-size: 90%"> '''Figure 2.''' Solver type selection and specification of the optimization (maximize or minimize the objective function's value) in BioUML. One-click of the left mouse button <i>Ok</i> button runs the FBA.</span> | + | <span style="font-size: 90%"> '''Figure 2.''' Solver type selection and specification of the optimization (maximize or minimize the objective function's value) in BioUML. One-click of the left mouse button <b><i>Ok</i></b> button runs the FBA.</span> |
<h5> Optimal solution in the tab</h5> | <h5> Optimal solution in the tab</h5> | ||
+ | The outcome of the FBA will be automatically presented upon completion of the analysis in the <b><i>Flux Balance</i></b>. | ||
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+ | [[File:FBA_viaDiagram_Fig3.png|1000px]] | ||
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+ | <span style="font-size: 90%"> '''Figure 3.''' Results of the FBA in corresponding tab for <i>iMK1321</i> model. The flux distribution of the model is marked red below.</span> | ||
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+ | The flux distribution can be saved as a table via one-click of the left mouse button the save icon in upper left corner of the tab (Figure 3, marked red as 1). It will lead to pop-up window where a specification of the path and name of the table file are required. | ||
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+ | [[File:FBA_viaDiagram_Fig4.png|1000px]] | ||
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+ | <span style="font-size: 90%"> '''Figure 4.''' Specification of the path and name of the table file with the output flux distribution of the model.</span> | ||
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+ | As a result, the table will be automatically opened in the <b>Work Space</b>. The table consists of two columns: reaction ID and optimal value of the reaction flux obtained by FBA. | ||
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+ | [[File:FBA_viaDiagram_Fig5.png|1000px]] | ||
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+ | <span style="font-size: 90%"> '''Figure 5.''' Resulting FBA table usage for <i>iMK1321</i> model.</span> | ||
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Revision as of 18:56, 16 March 2022
Constraint-based flux balance analysis (FBA) is a mathematical approach that enables to provide a holistic view of the cellular metabolism in pro- and eukaryotes and predict flux distribution in a global (on a genome-scale level) metabolic network both under a range of environmental conditions and genetic perturbations. The maximization of the biomass equation is typically used as an objective function of the model for FBA. There are two ways to run the analysis in the BioUML. Below is a step-by-step instruction for both ways.
Contents |
FBA via Diagram
If the diagram contains fluxes properties written as fbc extension of the SBML "FBC table" tab can be used. Advantage of this tab usage is lack of necessity in creation table with data about fluxes: it will be created automatically using diagram. The step-by-step instruction of the analysis will be demonstrated on the iMK1321 model for Geobacillus icigianus recently published by our research group.
Figure 1. View of the iMK1321 model diagram in BioUML. Double-click of the left mouse button the diagram icon (marked red as 1) opens the diagram in the Work Space (marked red as 2).
Flux Balance tab in the Operations Field
To launch the analysis, move to the Flux Balance tab in the Operations Field (Figure 1, marked red below) and push the corresponding button in upper left corner of the tab (marked red as 3). It will lead to pop-up window where a specification of the analysis settings is required.
Figure 2. Solver type selection and specification of the optimization (maximize or minimize the objective function's value) in BioUML. One-click of the left mouse button Ok button runs the FBA.
Optimal solution in the tab
The outcome of the FBA will be automatically presented upon completion of the analysis in the Flux Balance.
Figure 3. Results of the FBA in corresponding tab for iMK1321 model. The flux distribution of the model is marked red below.
The flux distribution can be saved as a table via one-click of the left mouse button the save icon in upper left corner of the tab (Figure 3, marked red as 1). It will lead to pop-up window where a specification of the path and name of the table file are required.
Figure 4. Specification of the path and name of the table file with the output flux distribution of the model.
As a result, the table will be automatically opened in the Work Space. The table consists of two columns: reaction ID and optimal value of the reaction flux obtained by FBA.
Figure 5. Resulting FBA table usage for iMK1321 model.
FBA via Analysis tab
FBA can be also conducted via the Flux Balance Constraint analysis in the BioUML. Firstly, move to Analysis tab in the Tree Area by a single click with the right mouse button on the corresponding tab.
FBC data table creation
To start the analysis via the tab it is required to create the table with flux balance constraint data. It can be created via Building Flux Balance Data Table analysis. It is worth noting that the Building Flux Balance Data Table analysis and "FBC table" tab work only with SBML L3v1 diagrams with special fbc package. Thus, if the diagram does not satisfy these conditions it should be transformed before using this analysis. For example, if the diagram does not use fbc package but contains all necessary information about fluxes, it should be preprocessed by Recon transformer firstly.
Figure 1. View of Building Flux Balance Data Table analysis. Double-click of the left mouse button the analysis icon (marked red) opens the analysis settings in the Work Space (marked red). It is necessary to specify a path to the diagram, output path for the table and values of lower and upper bounds in mmol*gDCW-1*h-1.
One click of the left mouse button on the Run will launch the analysis. The resulting Flux Balance Data Table for FBA will be automatically opened in the Work Space as an output of the analysis.
Figure 2. Resulting Flux Balance Data Table for iMK1321 model. The objective function of the model is marked red.
FBC analysis usage
To start work with the Flux Balance Constraint analysis one needs a diagram and a special table with data about its fluxes (names, bounds, objective function coefficients, etc.). To open the analysis settings in the Work Space double-click of the left mouse button the analysis icon (marked red).
Figure 3. Flux Balance Constraint analysis in the BioUML.
Analysis enables to select path to the diagram, to the data table and to the table with output results. Also it has an expert mode where user can select type of the objective function, solver type (GLPK, Apache simplex solver and Gurobi solver are available) and some solver's properties.
Figure 4. Solver type selection in the FBC analysis.
One click of the left mouse button on the Run will launch the analysis. The outcome of the FBA will be automatically opened in the Work Space as an output table of the analysis.
Figure 5. Resulting "FBC table" tab usage for iMK1321 model. The objective function's value of the model is marked red.