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  • F2620 Comparison
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• Cell by Date
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Comparison to F2620

In addition the results in vitro have been compared to the work on [http://partsregistry.org/Part:BBa_F2620 BBa_F2620](pTet-LuxR-pLux-GFPmut3b in vivo which is the same as the construct 1 used for infecter detector. To do this we investigated the comparison between in vitro and in vivo. |}

Normalise the in vitro on the plasmids to give a platform for comparison:

• In Vitro - 4µg of DNA was added which for [http://partsregistry.org/Part:BBa_T9002 pTet-LuxR-pLux-GFPmut3b] is 904823007 plasmids
• In Vivo - Each cell has ~30 plasmids per cell

To compare we normalised the data of in vitro GFPmut3b molecules synthesised per 30 plasmids to allow some comparison to the in vivo data.

Rate of GFPmut3b Synthesis for 100nM AHL

Comparison between in vivo and in vitro for rate of GFPmut3b at 100nM AHL. The rate for in vitro and in vivo was taken for the maximum rate for each chassis. *in vivo has a maximal rate of 400-500 molecules of GFP synthesised per second per cell. The in vivo reaches steady state ~30minutes. *in vitro has the equivalent of 220 molecules of GFP synthesised per second per cell equivalent. This is based upon the normalization on DNA plasmids. The in vitro chassis decreases in rate of synthesis after 90 minutes and keeps decreasing until rate is zero at around 360 minutes

Transfer Function

The graph above shows the transfer function of AHL input vs rate of GFP synthesis output. The blue line on in vivo corresponds to the range of AHL on in vitro *in vitro shows a similar shape to the in vivo transfer function, however rate of GFP synthesis lower in the in vitro chassis. e.g. for 1000nM the rate in vivo is ~450 GFP molecules per sec per cell, in vitro has an equivalent value of 220 GFP molecules per second. *The in vitro chassis looks as if the rate is very low for low AHL inputs being <10 molecules of GFP per second.

Summary

Below is list of which of the orginial Specifications that our infecter detector achieved: