Team:Austin Texas/interlab study
From 2014.igem.org
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Despite the genetic similarities in the devices—all three contained the same coding sequence, two devices had the same backbone and two devices had the same promoter sequence—there were stark differences in the amount of fluorescence produced by each of the devices. | Despite the genetic similarities in the devices—all three contained the same coding sequence, two devices had the same backbone and two devices had the same promoter sequence—there were stark differences in the amount of fluorescence produced by each of the devices. | ||
- | While we expected the device with a strong promoter and the highest copy number plasmid to have the highest fluorescence, we did not observe this to be the case. Instead, we saw that the two constructs with the same promoter and coding region in both the medium copy number plasmid pSB3K3 and the high copy number plasmid pSB1C3 actually yielded the strongest fluorescence signal in the medium copy number plasmid. It is possible that the high copy number plasmid pSB1C3 had a negative effect on overall fluorescence—perhaps it became toxic or slowed cell growth. However, it is also possible that we may have swapped cultures or mislabeled an initial eppendorf or culture tube | + | While we expected the device with a strong promoter and the highest copy number plasmid to have the highest fluorescence, we did not observe this to be the case. Instead, we saw that the two constructs with the same promoter and coding region in both the medium copy number plasmid pSB3K3 and the high copy number plasmid pSB1C3 actually yielded the strongest fluorescence signal in the medium copy number plasmid. It is possible that the high copy number plasmid pSB1C3 had a negative effect on overall fluorescence—perhaps it became toxic or slowed cell growth. However, it is also possible that we may have swapped cultures or mislabeled an initial eppendorf or culture tube. |
- | In comparing | + | If this is not the case, then we would consider the possibility that the medium copy plasmid pSB3K3, while lower copy number than pSB1C3, may be a better expression platform for this protein. One can also compare the relative qualitative fluorescence of the cultures visually (Fig. 1) by looking at the top two rows of flasks: the top row being BBa_I20260 in pSB1C3 and the middle row being the same construct (BBa_J23101+E0240) in pSB3K3. |
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+ | In comparing constructs #1 and #3 (with the same coding sequence and plasmid backbone but different promoters), it should be noted that the sequence of promoter J23115 (device #3) differed by two bases from the reference sequence in the registry. While the sequence we used is consistent with the Spring 2014 Kit Distribution sequence analysis performed by the Biobricks Foundation, it is likely that this mutated promoter may have a different activity than the reference sequence. We observed that J23101 (device #1) shows a several-fold stronger signal than our mutated promoter J23115. While the [http://parts.igem.org/Promoters/Catalog/Anderson measured relative fluorescence data] of the reference sequences generally agree with our data, the mutated J23115 shows slightly less activity compared to the reference data. The relative qualitative fluorescence of the cultures can be compared visually (Fig. 1) by looking at the top and bottom rows: the top row using promoter J23101 and the bottom row using mutated promoter J23115, both in pSB1C3. | ||
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Revision as of 13:43, 17 October 2014
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