Difference between revisions of "Part:BBa K4271001"
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==References:== | ==References:== | ||
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+ | Jha, Ramesh K., et al. “A Microbial Sensor for Organophosphate Hydrolysis Exploiting an Engineered Specificity Switch in a Transcription Factor.” Nucleic Acids Research, vol. 44, no. 17, 2016, pp. 8490–500. Crossref, https://doi.org/10.1093/nar/gkw687. | ||
Revision as of 11:14, 7 October 2022
T7 Promoter + Lac operator + RBS + OPH + T7 terminator
Usage and Biology
Build:
Synthetic oph gene we used in this study is derived from the opd (organophosphate degradation) gene in Agrobacterium tumefaciens and performed with codon usage optimization for E. coli heteroexpression. We digested the oph gene with BamHI and HindIII, subcloned it to pET22b vectors that underwent the same restriction enzyme digestion, then transformed the recombinant into E. coli DH5α. The transformation was conducted by plasmid extraction through mini-prep.
We later confirmed the insertion of our oph gene into the enzyme plasmid by enzyme digestion, cutting the recombinant DNA with BamHI and HindIII respectively, and observing the same band sizes of 6.5 kilobases after gel electrophoresis (left). We later digested our pET22b::OPH again with both BamHI and HindIII, two of resulting DNA bands include the 1071 base-long oph and the 5479 base-long pET22b vector (right). Finally, the plasmid was transformed into the competent cells E.coli BL21(DE3) via heat shock, which we later used to examine the level of paraoxon degradation by our enzyme plasmid.
Test:
To confirm the efficiency of our pNP sensor in determining the amount of pNP produced, we measure the GFP fluorescence of E. coli BL21 (DE3) with and without pNP sensor in the presence and absence of pNP.
Analysis of Result:
The result we acquired from the experiment is not consistent with the data previously published (Jha, Ramesh K., et al.). The difference in the level of GFP fluorescence with and without adding 125 µM of pNP is not significant enough to prove the effectiveness of our pNP sensor (Jha, Ramesh K., et al.). Given that the genetic organization and sequence of our pNP sensor is identical to the plasmid design in the research paper, we went back to further examine and check the pNP sensor design. As a result, we discovered the lack of commonly used RBS sequence in front of pNPmut1-1 in the sensor plasmid, from which we inferred that the poor transcription of pNPmut1-1 might be the reason behind the relatively weak and undetectable green fluorescence signals. In Redesign, we are planning to insert RBS by flanking 4 bases apart from the start codon of pNPmut1-1 in the pNP sensor backbone to further observe if GFP expression will increase in the presence of the same amount of pNP.
(Absorbance at 410nm - background data)/ OD600 | (Supernatant Absorbance at 410nm - background data)/ OD600 | |
1. BL2(DE3) (negative control) | 0 | 0 |
2. BL2(DE3) +paraoxon (experimental) | 0.2323266987 | 0.3905284832 |
Replicate 3 | 35.8 | 64.2 |
3. BL2(DE3) +pNP (positive control) | 8.905950096 | 9.966890595 |
4. PET::OPH +IPTG induction (negative control) | 0 | 0 |
5. PET::OPH +paraoxon +IPTG induction (experimental) | 6.720481928 | 6.916144578 |
6. PET::OPH +pNP +IPTG induction (positive control) | 11.83912249 | 12.51005484 |
References:
Jha, Ramesh K., et al. “A Microbial Sensor for Organophosphate Hydrolysis Exploiting an Engineered Specificity Switch in a Transcription Factor.” Nucleic Acids Research, vol. 44, no. 17, 2016, pp. 8490–500. Crossref, https://doi.org/10.1093/nar/gkw687.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12INCOMPATIBLE WITH RFC[12]Illegal NheI site found at 1259
Illegal NotI site found at 1219 - 21INCOMPATIBLE WITH RFC[21]Illegal XhoI site found at 1228
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 330
Illegal AgeI site found at 150
Illegal AgeI site found at 435
Illegal AgeI site found at 570
Illegal AgeI site found at 633 - 1000COMPATIBLE WITH RFC[1000]