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All features of plug-in can be accessed under the “Plugins-> Add Reactions” menu. | All features of plug-in can be accessed under the “Plugins-> Add Reactions” menu. | ||
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− | [[Image:AddReactionsMenu.png | + | [[Image:AddReactionsMenu.png]] |
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== How to import database reactions == | == How to import database reactions == | ||
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Choose the option “SBML File” in menu. It will be appear a new window when you can choose the project, SBML file and the name of database. | Choose the option “SBML File” in menu. It will be appear a new window when you can choose the project, SBML file and the name of database. | ||
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− | [[Image:AddReactionsSBML.png | + | [[Image:AddReactionsSBML.png]] |
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After press “Ok”, the all the reactions will be loaded into the clipboard. | After press “Ok”, the all the reactions will be loaded into the clipboard. | ||
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− | [[Image:AddReactionsClipboard.png | + | [[Image:AddReactionsClipboard.png]] |
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<br><b>2. Flat files</b><br> | <br><b>2. Flat files</b><br> | ||
If you choose “Flat Files” option in menu, you must indicate the metabolites, fluxes and stoichiometric matrix text files. | If you choose “Flat Files” option in menu, you must indicate the metabolites, fluxes and stoichiometric matrix text files. | ||
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− | [[Image:AddReactionsFF.png | + | [[Image:AddReactionsFF.png]] |
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<br><b>3. TXT Files</b><br> | <br><b>3. TXT Files</b><br> | ||
This is a new format representation for reactions and metabolites. In this case, you must indicate the metabolites and reactions text files. More information about files format can be found here. | This is a new format representation for reactions and metabolites. In this case, you must indicate the metabolites and reactions text files. More information about files format can be found here. | ||
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− | [[Image:AddReactionsTXT.png | + | [[Image:AddReactionsTXT.png]] |
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<br><b><i>Choose Files</i></b><br> | <br><b><i>Choose Files</i></b><br> | ||
Select the reactions and metabolites files. Click in “Open” button. | Select the reactions and metabolites files. Click in “Open” button. | ||
− | + | <br><b><i>Apply Filters</i></b><br> | |
You can select, by applying filters, a subset of reactions. For do this, click in “Add” to insert a new filter. When you have all filters that you want apply, click in “Apply” button. The filters can be applied in conjunction or disjunction of them. You can remove or edit a filter by select it and click in button “Remove” or “Edit”. | You can select, by applying filters, a subset of reactions. For do this, click in “Add” to insert a new filter. When you have all filters that you want apply, click in “Apply” button. The filters can be applied in conjunction or disjunction of them. You can remove or edit a filter by select it and click in button “Remove” or “Edit”. | ||
− | + | <br><b><i>Import Reactions</i></b><br> | |
When all reactions that you want import are present in reactions table, you need select the Project, a name for database and press the “Save” button. A new database will be created in selected project with the reactions visible in table (2). | When all reactions that you want import are present in reactions table, you need select the Project, a name for database and press the “Save” button. A new database will be created in selected project with the reactions visible in table (2). | ||
== How to reduce the database of reactions == | == How to reduce the database of reactions == | ||
− | To reduce the number of reactions in database to optimization process, you can apply a filter giving the target compound and a value of tolerance. The process will found all pathways between the metabolites presented in model and the target compound and calculate the cost for each pathway. Using the tolerance value will be selected the pathways with less cost and others that are in tolerance range | + | To reduce the number of reactions in database to optimization process, you can apply a filter giving the target compound and a value of tolerance. The process will found all pathways between the metabolites presented in model and the target compound and calculate the cost for each pathway. Using the tolerance value will be selected the pathways with less cost and others that are in tolerance range. |
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== How to do a mutant simulation by adding reactions == | == How to do a mutant simulation by adding reactions == | ||
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== How to do a mutant optimization by adding reactions == | == How to do a mutant optimization by adding reactions == | ||
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