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Team:BCCS-Bristol/Modeling/BSim
From 2009.igem.org
iGEM 2009
| Interested in finding out more about the creation of BSim simulations? Click here for a selection of tutorial examples. | Want to use the BSim software yourself? Click here to download the core libraries and source code (available freely under the MIT licence). | The BSim platform has already been used in a number of other projects! Read more about these projects here. |
Contents |
BSim Features
There are many new features available in the new version of BSim:
Bacteria
A versatile bacterium model is specified in the BSim core libraries. The default BSim bacterium exhibits physically correct run-and-tumble motion powered by a flagellar motor, and can be made to replicate and produce outer membrane vesicles in a biologically realistic manner.
- Heavy basis on literature
- Run and tumble by default (flagellar motor)
- chemotaxis!
- brownian motion and fluid forces implemented
- easily adaptable.
Interactions and actions
BSim allows the user to specify the actions and interactions present between different elements in the simulation. The specification allows for easily specified and adaptable behaviour based on what is actually required for a specific simulation. Everything can interact!
- easily specified and adaptable
- can do whatever you want:
- Collision
- Merging (vesicle/bacterium)
- GRNs
- other interactions:
- Everything can interact! chemical fields, GRNs, vesicles...
Vesicles
Many bacteria naturally produce outer membrane vesicles, and the size and rate of production seems to be based on rate of change of bacterial surface area. BSim includes physically based OMV production dynamics which were incorporated into our main iGEM project to allow us to analyse the effectiveness of OMV based communication.
- Small, but size based on growth
- Size and creation rate based on rate of change of surface area [ref - steve?]
- Vesicle movement - brownian motion in a viscous fluid environment
- Interaction can be specified
Chemical Fields
Chemical fields play an important part in many biological systems. BSim allows the user to specify an arbitrary chemical field and use this to realistically interact with the bacterial behaviour. It is also possible to simulate the diffusion of larger molecules as particle fields.
- diffusion
- decay
- physical units
GRN modelling
BSim allows the user to specify complex GRNS based on ODEs and apply these to individual bacteria to analyse GRN effects on a population level. It is now possible to analyse the effects of individual GRNs on a population level, all within the same context.
Magnetotaxis
It is now possible to simulate magnetotactic bacteria. These bacteria are sensitive to externally applied magnetic fields and can therefore be influenced to move along the direction of user specified magnetic field lines.
