Difference between revisions of "Part:BBa K4583009"
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==Usage and Biology== | ==Usage and Biology== | ||
===QS system=== | ===QS system=== | ||
| − | + | Quorum sensing (QS) is a natural form of cell-cell communication that regulates the metabolic behaviour of bacteria based on changes in their local cell density. As cell density increases, signalling molecules accumulate and are sensed by QS-controlled gene expression regulators, which turn on relevant gene expression. | |
===Esa I/R system=== | ===Esa I/R system=== | ||
| − | The Esa I/R system is quite special from traditional QS system. The EsaI/R QS system is homologous to the LuxI/R QS system and originates the maize pathogen--<i>Pantoea stewartii</i> subsp. <i>stewartia</i>. EsaR can act as both transcriptional activator and repressor. PesaR is a natural EsaR-repressed promoter, whereas PesaS is a natural EsaR-activated promoter. At low cell density (low ρ), EsaR binds to its esa box to turn off PesaR and turn on PesaS. In the presence of AHL, EsaR can bind to AHL and release from the DNA. Thus, at high cell density(high ρ), the PesaR is turned on and the PesaS is turned off | + | The Esa I/R system is quite special from traditional QS system. The EsaI/R QS system is homologous to the LuxI/R QS system and originates the maize pathogen--<i>Pantoea stewartii</i> subsp. <i>stewartia</i>. EsaR can act as both transcriptional activator and repressor. PesaR is a natural EsaR-repressed promoter, whereas PesaS is a natural EsaR-activated promoter. At low cell density (low ρ), EsaR binds to its esa box to turn off PesaR and turn on PesaS. In the presence of AHL, EsaR can bind to AHL and release from the DNA. Thus, at high cell density(high ρ), the PesaR is turned on and the PesaS is turned off[2]. |
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==Characterization== | ==Characterization== | ||
| − | The PesaRwt was characterized using mkate(Fig. 2). And we used a <html><a href="https://parts.igem.org/Part:BBa_B0034"> BBa_B0034</a></html> | + | The PesaRwt was characterized using mkate(Fig. 2) <html><a href="https://parts.igem.org/Part:BBa_K4583018"> BBa_K4583018</a></html>. And we used a RBS <html><a href="https://parts.igem.org/Part:BBa_B0034"> BBa_B0034</a></html>. |
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==Referenve== | ==Referenve== | ||
| − | [1]Shong, J., & Collins, C. H. (2013). Engineering the esaR promoter for tunable quorum sensing- dependent gene expression. ACS synthetic biology, 2(10), 568–575. | + | [1]Shong, J., & Collins, C. H. (2013). Engineering the esaR promoter for tunable quorum sensing- dependent gene expression. ACS synthetic biology, 2(10), 568–575. |
| − | [2] | + | [2] Gu F, Jiang W, Mu Y, et al. Quorum Sensing-Based Dual-Function Switch and Its Application in Solving Two Key Metabolic Engineering Problems. ACS Synth Biol. 2020;9(2):209-217. doi:10.1021/acssynbio.9b00290 |
Latest revision as of 11:51, 12 October 2023
Wild type promoter of Esa I/R QS system---PesaRwt
Usage and Biology
QS system
Quorum sensing (QS) is a natural form of cell-cell communication that regulates the metabolic behaviour of bacteria based on changes in their local cell density. As cell density increases, signalling molecules accumulate and are sensed by QS-controlled gene expression regulators, which turn on relevant gene expression.
Esa I/R system
The Esa I/R system is quite special from traditional QS system. The EsaI/R QS system is homologous to the LuxI/R QS system and originates the maize pathogen--Pantoea stewartii subsp. stewartia. EsaR can act as both transcriptional activator and repressor. PesaR is a natural EsaR-repressed promoter, whereas PesaS is a natural EsaR-activated promoter. At low cell density (low ρ), EsaR binds to its esa box to turn off PesaR and turn on PesaS. In the presence of AHL, EsaR can bind to AHL and release from the DNA. Thus, at high cell density(high ρ), the PesaR is turned on and the PesaS is turned off[2].
PesaRwt
PesaRwt refers to the wild-type PesaR.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal BamHI site found at 281
Illegal XhoI site found at 1 - 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Characterization
The PesaRwt was characterized using mkate(Fig. 2) BBa_K4583018. And we used a RBS BBa_B0034.
Protocols
Our experimental conditions for characterizing this part were as follows:
- E. coli MG1655
- 30oC, 48h, under vigorous shaking
- Plasmid Backbone: pCL
- Equipment: Multi-Detection Microplate Reader (Synergy HT, Biotek, U.S.) and Molecular Devices SpectraMax i3x.
We used mkate (excitation at 485 nm and emission at 528 nm) to characterize this part. As our focus was mainly on the expression time, we processed the obtained fluorescence data by means of the following equation: x'=(x-min)/(max-x). This treatment makes all data fall between 0 and 1, which is easier to use for comparisons between different fluorescence data (since our focus is on expression time).
Results
Referenve
[1]Shong, J., & Collins, C. H. (2013). Engineering the esaR promoter for tunable quorum sensing- dependent gene expression. ACS synthetic biology, 2(10), 568–575.
[2] Gu F, Jiang W, Mu Y, et al. Quorum Sensing-Based Dual-Function Switch and Its Application in Solving Two Key Metabolic Engineering Problems. ACS Synth Biol. 2020;9(2):209-217. doi:10.1021/acssynbio.9b00290