IGEM:Imperial/2007/Wet Lab/results/Res2.1: Difference between revisions

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m (New page: = Testing DNA concentration of pTet-LuxR-pLux-GFPmut3b ''In vitro''= __NOTOC__ ==Aims== To determine if the optimum concentration of [http://parts.mit.edu/registry/index.php/Part:BBa_T900...)
 
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==Results==
==Results==
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| width="600px"|<br>[[Image:DNA Concentration.PNG|thumb|600px|Fig.1.1:DNA Concentration ''in vitro'' - The DNA concentration of pTet-LuxR-pLux-GFPmut3b ''in vitro''. The fluorescence was measured adn converted into molecules of GFPmut3b ''in vitro'' using our calibration curve.]]  
| width="600px"|<br>[[Image:DNA Concentration.PNG|thumb|600px|Fig.1.1:DNA Concentration ''in vitro'' - The DNA concentration of pTet-LuxR-pLux-GFPmut3b ''in vitro''. The fluorescence was measured and converted into molecules of GFPmut3b ''in vitro'' using our calibration curve.]]  
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Revision as of 07:31, 24 October 2007

Testing DNA concentration of pTet-LuxR-pLux-GFPmut3b In vitro

Aims

To determine if the optimum concentration of pTet-LuxR-pLux-GFPmut3b in vitro.


Materials and Methods

Refer to protocols page.
Tested on (Insert link)

Results


Fig.1.1:DNA Concentration in vitro - The DNA concentration of pTet-LuxR-pLux-GFPmut3b in vitro. The fluorescence was measured and converted into molecules of GFPmut3b in vitro using our calibration curve.

Fig.1.2:DNA Concentration in vitro after 360 minutes - This graph shows the molecules of GFPmut3b produced after 360 minutes at varying DNA concentrations.


Controls:

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

Constants:

  • Temperature - 25°C
  • Total Volume - 60µl

Raw Data

Discussion

Figure 1.1 and Figure 1.2. shows us that the synthesis of GFPmut3b increases with DNA added up until 4µg of DNA. Above this the number of molecules of GFPmut3b produced decreases.

Another interesting observation is that the 6µg of DNA begins producing GFPmut3b greater than 2µg but then levels of before 2µg. This is thought to be because the data displayed on the figures are averages of 2 samples, one of the samples levels off sooner than the other and so brings the average down. However, the results do tell us that 6µg is lower than the 4µg, therefore the 4µg is the optimum DNA for our in vitro chassis.

This agrees with promegas guide on using the commcerial cell extract in vitro chassis. The guide states that 4µg is the maximum and above this there is problems with premature termination of translational products

Conclusion

To conclude the following approximations can be made:

  • Optimum DNA concentrations - 4µg of DNA
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