Difference between revisions of "Part:BBa K3763000"
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According to the results, we can find that the performance of our fatty acids-sensitive promoter is improved to a certain extent. Taking 0.125× fatty acid concentration as an example, the fluorescence intensity of 99-1 is over 11000 after 6 hours, while the promoter of 99-2 is less than 10000 at three fatty acid concentrations. However, we can see that the optimized promoter still has a high expression leakage and low expression in a short time to some extinct which is closely to the function of the promoter. | According to the results, we can find that the performance of our fatty acids-sensitive promoter is improved to a certain extent. Taking 0.125× fatty acid concentration as an example, the fluorescence intensity of 99-1 is over 11000 after 6 hours, while the promoter of 99-2 is less than 10000 at three fatty acid concentrations. However, we can see that the optimized promoter still has a high expression leakage and low expression in a short time to some extinct which is closely to the function of the promoter. | ||
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Revision as of 13:12, 18 October 2021
RBS improved on the basis of BBa_B0030
Overview
The ribosome binding site (RBS) is a short sequence upstream the transcription start which is crucial for protein translation.
It has been proveed that its effectiveness is determined by its base-pairing potential to the ribosome and its spacing from the start codon. Therefore, under the condition that the latter remains unchanged, we believe that the function of RBS can be changed by changing its sequence
Characterization
Parts BBa_B0030 is a strong RBS based on Ron Weiss thesis. And its strength is considered relative to BBa_B0031, BBa_B0032, BBa_B0033 and BBa_B0034 by the former iGEM teams.
After consulting a large number of RBS data, we found that most RBS with higher binding efficiency had the repetitive sequence of "aggg", or "aaa" after the start codon. B0030 was the one with the highest expression efficiency among the four existing RBS, with the sequence of "aaa" but no sequence of "aggg". Therefore, we modified the sequence to change "aagagg" to "aggagg", so that it could simultaneously have the characteristics of two sequences with high binding efficiency. In later experiments, we wanted to compare the performance of the two sequences.
Figure 1. The change in sequence.
Figure 2. Plasmid design.
Figure 3. BBa_K3763002(pFadD_Lac-RBS BBa_B0030-GFP-rrnB T1 and T2 terminator, pDSW208-99-2) contains RBS without modification.
Figure 4. BBa_K3763003(pFadD_Lac-RBS BBa_K3763000-GFP-rrnB T1 and T2 terminator, pDSW208-99-2) Contains RBS with modification
RBS improved on the basis of BBa_B0030
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]