Team:Imperial College London/Wetlab/Results/Thermoinduction/Harvard

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In the experiment, 3 tests were temperature and fluorescence output was recorded for:<br>
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[[Image:II09_HVD2.jpg]]
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*Cells with the Harvard Biobrick
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*Negative control
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*Positive control
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<b>Figure 1: Fluorescence trend for cells at 3 different temperatures (degrees celsius) with a negative and positive control</b><br>
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From figure 1, no immediate trend is apparent.
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However, if we study figure 2 more closely without looking at the controls, we can see that as temperature is increased, fluorescence count increases too. <br>
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However, there are several artefacts in the data.
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[[Image:II09_HVD2.jpg]]<br>
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<b>Figure 2: Fluorescence trend for cells at 3 different temperatures (degrees celsius)</b> <br><br>
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<b>Conclusion:</b>
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When temperature increases, the repression of the Harvard promoter is lifted and genome deletion by thermoinduction can take place. This can be observed by a higher fluorescence measure when the temperature rises.
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Latest revision as of 11:18, 12 October 2009



In the experiment, 3 tests were temperature and fluorescence output was recorded for:

  • Cells with the Harvard Biobrick
  • Negative control
  • Positive control

II09 HVD1.jpg Figure 1: Fluorescence trend for cells at 3 different temperatures (degrees celsius) with a negative and positive control
From figure 1, no immediate trend is apparent. However, if we study figure 2 more closely without looking at the controls, we can see that as temperature is increased, fluorescence count increases too.
However, there are several artefacts in the data. II09 HVD2.jpg
Figure 2: Fluorescence trend for cells at 3 different temperatures (degrees celsius)

Conclusion: When temperature increases, the repression of the Harvard promoter is lifted and genome deletion by thermoinduction can take place. This can be observed by a higher fluorescence measure when the temperature rises.

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