Imperial/Wet Lab/Results/Res1.8

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Testing DNA concentration of pTet-GFPmut3b In vitro

Aims

To determine if the optimum concentration of [http://partsregistry.org/Part:BBa_I13522 pTet-GFPmut3b] in vitro.

Materials and Methods

Link to Protocols page

Results


Fig.1.1:Molecules of GFPmut3b synthesised over time, for each DNA Concentration in vitro - The fluorescence was measured over time for each experiment and converted into molecules of GFPmut3b in vitro using our calibration curve.

Fig.1.2:Molecules of GFPmut3b synthesised for each DNA Concentration in vitro, after 360 minutes


Controls:

  • Negative Control- Nuclease Free Water was added instead of DNA

Constants:

  • Temperature - 37°C
  • Total Volume - 60µl

Raw Data

Discussion

Figure 1.1 and Figure 1.2. show us that the synthesis of GFPmut3b increases with DNA added. Though the molecules of GFPmut3b synthesised increases with increasing DNA concentration, even after a concentration of 4µg. This is not what was expected because of the nature of the cell free chassis which is optimum DNA concentration = 4µg. However, after 2µg the difference in molecules of GFP produced becomes very small and when the standard dievation is taken into account the differences looks like it is negligible. If DNA concentration is increased from 2µg to 6µg (a percentage increase of 200%), it reuslts in only about 15% increase (at 360min) in GFPmut3b molecules synthesised.


The different DNA concentrations have a similar shape graph on figure 1.1. In addition the 2µg,4µg and 6µg show very similar response.Thus it was decided that a DNA concentration of 2 or 4&micor;g will be used for testing pTet-GFPmut3b construct.

When the results for this experiment are compared to a similar experiment carried out for pTet-LuxR-pLux-GFPmut3b the difference in optimum DNA concentration becomes apparent. The pTet-LuxR-pLux-GFPmut3b showed an optimum at 4µg, above which the output of GFP molecules decreases. This is not the case for pTet-GFPmut3b which although does not see an increase above 4µg, it does not show the decrease.

Promega quote that the optimum for the commercial cell extract is 4µg, above which there is a decrease in protein synthesis because of premature termination of translation.The reason for the difference in optimum DNA concentration must be in the constructs used. pTet-LuxR-pLux-GFPmut3b is a large construct that has produces two proteins; pLux and GFPmut3b. In contrast the pTet-GFPmut3b is a smaller construct that only produces GFPmut3b.

Conclusion

To conclude the following approximations can be made: Optimum DNA concentrations - 2 or 4µg of DNA