Team:ETH Zurich/Achievements/Model Results

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(Feasibility Analysis)
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= Feasibility Analysis =
= Feasibility Analysis =
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In order for the GFP band to appear at the beginning of our channel, system is supplied with around 44.05 mg/L acetaldehyde. In order for the band to be able to form at the very end of the channel, the acetaldehyde concentration that is supplied to the system is 2420 mg/L.
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In order for the GFP band to appear at the beginning of our channel, system is supplied with around 44.05 mg/L acetaldehyde. In order for the band to be able to form at the very end of the channel, the input acetaldehyde concentration is 2420 mg/L.
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Revision as of 23:54, 21 September 2011

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Modeling Results
Feasibility Analysis Process Design
Insert text here.

Feasibility Analysis

In order for the GFP band to appear at the beginning of our channel, system is supplied with around 44.05 mg/L acetaldehyde. In order for the band to be able to form at the very end of the channel, the input acetaldehyde concentration is 2420 mg/L.

Process Design

  • E. coli can generate a gradient by degrading a substance replenished by diffusion in an agarose-filled channel.
  • It can do so within a reasonable experimental timeframe (within several hours).
  • It can do so within reasonable channel lengths (several centimeters)
  • Channel diameter is irrelevant for our system
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