Team:Goettingen/Parts
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For qRT-PCR analysis (Fig. 2),'' E. coli'' cells were harvested at an OD<sub>600nm</sub> of ca. 0.6 (exponential growth phase) and after 5 – 6 h when the OD<sub>600nm</sub> had reached approximately 2 (stationary phase). The cells were incubated over night and a third sample taken the next morning ( > 20 h incubation, OD600nm was ca. 2 – 3). The relative mRNA levels of rfp were normalized to the rpoA levels. Then, the fold change (∆∆C<sub>T</sub>) of the promoters compared to promoter 1 (the weakest) was calculated for each phase. The fold enrichments obtained for different growth phases could not be compared since the C<sub>T</sub> values determined for rpoA suggested a generally altered transcription during the different growth stages. | For qRT-PCR analysis (Fig. 2),'' E. coli'' cells were harvested at an OD<sub>600nm</sub> of ca. 0.6 (exponential growth phase) and after 5 – 6 h when the OD<sub>600nm</sub> had reached approximately 2 (stationary phase). The cells were incubated over night and a third sample taken the next morning ( > 20 h incubation, OD600nm was ca. 2 – 3). The relative mRNA levels of rfp were normalized to the rpoA levels. Then, the fold change (∆∆C<sub>T</sub>) of the promoters compared to promoter 1 (the weakest) was calculated for each phase. The fold enrichments obtained for different growth phases could not be compared since the C<sub>T</sub> values determined for rpoA suggested a generally altered transcription during the different growth stages. | ||
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+ | Plate reader measurements served to determine the RFP fluorescence. The wells of a titer plate were inoculated with the clones and the RFP fluorescence and the OD<sub>600nm</sub> measured over the time. (Fig 3). | ||
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+ | '''Results''' | ||
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+ | '''Fluorescence microscopy.''' The cells of the control strain did not fluoresce, while all strains transformed with a promoter plasmid exhibited a red fluorescence. The cells with promoter 1 and promoter 2 seemed to fluoresce less than those of promoter 3 and promoter 4. | ||
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+ | '''qRT-PCR analysis.''' For the exponential phase, the fold changes indicate that Promoters 1 and 2 were weak. For Promoter 2, the rfp mRNA levels appeared to be slightly higher than for Promoter 1. Promoter 3 led to even higher rfp mRNA levels. For stationary phase and overnight incubation, the same tendency was observed. Only for Promoter 4 during stationary phase, the fold changes for the replicates provided contradicting results: While replicate 1 suggested that this promoter was stronger during stationary phase than promoter 3, the second replicate indicated the opposite. | ||
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+ | '''Plate reader experiment.''' During the initial growth phase, all strains, including the non-fluorescent control strain, showed slightly elevated RFP/OD600nm. For all clones 1, fluctuation during the first hours was observed, as well. During logarithmic growth of the strains, the RFP fluorescence dropped (minimum at 4 – 5 h). While the fluorescence remained low for the control strain, it increased for all promoter clones as soon as the stationary phase was reached (>5 h). After that, the fluorescence and optical density remained largely constant. | ||
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+ | '''Discussion''' | ||
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+ | Since we used two of the promoters from the Anderson collection for our reporter system, we characterized them further. In doing so we compared three different methods to monitor promoter strength: fluorescence microscopy, determination of relative transcript levels of the rfp reporter gene by qRT-PCR and measurement of the fluorescence of the RFP protein. The fluorescence microscopy provided only a very rough impression of the different strength of the promoters. However, we could conclude, that RFP was expressed indicating that the promoters were functional. The weaker fluorescence observed for Promoter 1 and Promoter 2 indicated that these promoters might be weaker than the other two. | ||
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+ | Deeper insights into the promoter strength allowed the plate reader experiments. In these measurements, the observed fluctuations and elevated RFP/OD600nm values during initial growth might result from the low cell number in LB medium and might therefore be not significant (compare: [https://2012.igem.org/Team:LMU-Munich/Data/Anderson#Luminescence_measurements here]). The RFP fluorescence remained low during exponential growth. After 5 h, there was a strong increase in RFP fluorescence. At the same time, cell growth slowed down suggesting that both, extensive cell growth and reduced fluorescence might be correlated. In order to fluoresce, fluorescent proteins like GFP need oxygen (Tsien, 1998). This could be true for RFP, as well. The oxygen RFP might need for fluorophore maturation could not have been available during log phase, since the cells consume the oxygen for enhanced cell growth. This possibility underlines the advantage of qRT-PCR over promoter characterization via fluorophores. Fluorophore-depended characterization might only be useful during stationary phase, since during this stage, significant results for the different activities of the promoters were obtained. | ||
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+ | By qRT-PCR we were able to observe a tendency for the strength of the different promoters, though the exact fold changes seemed not to be reproducible. This lack of reproducibility might have resulted from the difference in age. While the clones from replicate 1 were from the first transformation of the biobrick vectors, the clones from replicate 2 originated from a new re-transformation of the plasmids. In general, our results suggested that Promoter 1 was the weakest, followed by Promoter 2, which was slightly stronger. Most interestingly, in E. coli DH5α, Promoter 3 seemed to be even stronger than Promoter 4, though it was shown to be weaker than promoter 4. During stationary phase, we obtained contradicting results for the strength of Promoter 4. This could be clarified by the plate reader measurements: During stationary phase, Promoter 3 seemed to be stronger than promoter 4 for all clones tested, confirming the assumptions based on the qRT-PCR results. Likewise, the plate reader experiments confirmed the qRT-PCR results for all other promoters. | ||
+ | All in all, our results showed that it is useful to apply several methods for characterization. Taking the results of the three methods into account, we suggest that the order of the strength of the promoters in ''E. coli'' DH5α is – independent of the growth phase - as follows: Promoter 1 < Promoter 2 < Promoter 4 < Promoter 3. | ||
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+ | '''References''' | ||
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+ | ''Roger Y. Tsien (1998) ''“The green fluorescent protein“, ''Annu. Rev. Biochem. Vol. 67, pp. 509–544'' | ||
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Revision as of 20:41, 2 October 2013