GFtbox Tutorial pages

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GFtbox Details

Three ways to use GFtbox

There are three ways to use the GFtbox.

  1. Doing everything from the GUI. This is the best way to start. See (1,2) below.
  2. Do only some things from the GUI. This is the best way to develop ideas. Use the GUI to generate the mesh (canvas) and create growth factors (morphogens - in other words declare the variables) but capturing your ideas on how the regulatory processes work in, what we call, the interaction function. See (3) below.
  3. Without the GUI. For example, run many examples (instances) of a pre-existing project on a cluster. This is the best way to explore the parameter space of a model for comparison with biological observations. We have used this way extensively but the code is not yet ready for general use.

1 Doing it through the GUI

Isotropic growth

A

For tutorial on uniform growth click here.

Consider a disc shaped canvas (tissue) in which the specified growth is uniform, isotropic and on both sides.
Into what shape will the disc grow?
This model is as simple as it gets. Notice that, during growth, the mesh is automatically subdivided. Notice also that the final surface is not quite flat. This is to allow it to deform in 3D it is not flat initially. There are options to make it properly flat and to force it to remain flat - see options on the GUI (hover over controls to get prompts). 		<wikiflv width="400" height="400" loop="true" background="white">UniformGrowth.flv|GPT_in_the_beginning_2_20110510-000000-0001.png</wikiflv>

B

For tutorial on non-uniform growth click here
Consider a disc shaped canvas (tissue) in which the non-uniform specified growth increases in proportion to the distance from the centre.
Into what shape will the disc grow?
Already we are into the realms of modelling biological systems. Compare this result with the discussion of Lily petals and Gaussian curvature (Lianga and Mahadevana,Sharon, Marder and Swinney,Nath, Crawford, Carpenter and Coen ). 		<wikiflv width="192" height="168" loop="true" background="white">Fascinator.flv|GPT in the beginning-2011-05-05-000002d76-0001.png</wikiflv>

Note: this model should have many more finite elements

Adding polariser

C

For tutorial on uniform growth non-uniform polariser click here

In the GFtbox growth will be isotropic, in other words growth in the plane of the canvas will be the average of what is specified for Kapar and Kaper (A side) and Kbpar and Kbper (B side).
We now add polariser. Start with example A - uniform growth - and add a radial polarising gradient.
The gradient defines local directions and local growth can be specifed either parallel to (Kpar) or perpendicular to (Kper) that direction.
How does the polariser change the final shape?

<wikiflv width="192" height="168" loop="true" background="white">in_the_beginning_a_cone.flv|GPT in the beginning 2 20110510-000001-0009.png</wikiflv>

2 Doing through the GUI and an interaction function

Interaction functions - programmatic modelling

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