Team:BCCS-Bristol/Modeling/Population Dynamics

From 2009.igem.org

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(Population Dynamics)
(Population Dynamics)
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We are trying to find answers to these problems and questions:
We are trying to find answers to these problems and questions:
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*Bacteria change size.
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*Bacteria change [http://www.pubmedcentral.nih.gov/picrender.fcgi?artid=2134870&blobtype=pdf size].
**Minimum size
**Minimum size
***When the bacterium will be at the minimum size?
***When the bacterium will be at the minimum size?

Revision as of 10:25, 20 July 2009

BCCS-Bristol
iGEM 2009

Population Dynamics

We are trying to find answers to these problems and questions:

  • Bacteria change [http://www.pubmedcentral.nih.gov/picrender.fcgi?artid=2134870&blobtype=pdf size].
    • Minimum size
      • When the bacterium will be at the minimum size?
      • How fast the bacterium increase its dimension?
    • Maximum size
      • When the bacterium will be to the maximum size?
    • There is same relationship between velocity and size?
    • Relationship beetwen size/time/growth rate

  • Separation.
    • When this happen?
    • Where the bacterium get placed?
      • Maybe following the bacterium motion?
      • Random?
      • Fluid dynamics?
    • Motion properties after the separation.
      • Velocity after separation.
    • The two bacteria after the separation have the same size?

  • Genetic information
    • After the separation the two bacteria have the same genetic properties:
      • same replication time distribution?
      • or the new one has a normal/uniform distribution on the normal/uniform distribution of the oldest one?

  • Growth
    • Rate of growth
    • Connection between the rate of duplication and the growth phase.

  • Standing phase
    • One bacterium can "kill" another one to make its replication?
      • If yes which one is going to die?

  • Environment
    • we can try to model a variable condition of the environment:
      • 100% Suitable for the replication of the bacteria
      • 80% Suitable for the replication of the bacteria
      • and so on...


Problems

The most popular replication time for an E.Coli is about 20/25 minutes.
Can our simulation take so long time?
How can we simulate on "world" day with 400 bacteria?