You should be logged in into an instance where you had previously uploaded the sample data.
To start, we will create a new empty workflow. Do this by going to the blue menu bar on the top and press on Workflows
.
On the next screen press Create new workflow
, on the right side of the screen.
Name the workflow my-fluxomics
and press Create
You should now be on the workflow canvas window. Now we will select the different tools and add them to the canvas.
Click on Fluxomics
under PHENOMENAL H2020 TOOLS and then click on ramid
and midcor
. You should see boxes appearing on the workflow canvas in the middle. Drag and drop the boxes so that they don't overlap, leaving midcor
after ramid
.
As you might remember, we run ramid
and midcor
separately before, and we fed the output of ramid
into midcor
. We will now mimick this by connecting the only output of ramid
to midcor
. Drag the circle with a triangle to the right of the ramid output (outputExchange
) into the same icon available to the left of the only input of midcor
. It should look like:
Now, again under Fluxomics, click on iso2flux
, to see that box appear on the canvas. Connect the only output of midcor
to iso2flux
input named tracing_data
. It should look like this:
Now your workflow is ready for running, but you need to save it first. Go to the cog icon to the upper right of the window, click on it and select Save
.
To run it with data, press the cog icon again and select Run
this time.
Now we need to pair the different input data files in our history to the workflow inputs. The final result with all assignments should look like this:
Please make sure that all your inputs are paired to the workflow inputs as shown, otherwise the execution will fail.
Once this is ready, press the Run workflow button.
As you trigger the execution of the workflow, you will see the creation of files, initially in grey to turn into green as they are ready.
Once the wokflow is ready and all files are available, click on the eye icon next to the SBML Constrained with the results of 13C analysis
, to see the SBML file with constraints on the fluxes.
We will now run a previously stored version of this workflow, which will include an additional final visualization module that will enable us to see the results of fluxes on top of a metabolic network. Once all your results are in green, please proceed to the main tutorial page to continue with part 2.4.