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Figure 1.5 A650 of 4.5 h and 5 h of difference groups | Figure 1.5 A650 of 4.5 h and 5 h of difference groups |
Revision as of 13:08, 20 October 2019
pfrmR - An Engineered Formaldehyde-Inducible Promoter
Basic Description
This promoter is an engineered formaldehyde-inducible promoter. Escherichia coli has a native formaldehyde-inducible promoter, pfrm, which is found upstream of the frmRAB formaldehyde detoxification operon. FrmR, the first product of the operon, is a member of the DUF156 family of DNA-binding transcriptional regulators. It binds the frmRAB promoter region and is negatively allosterically modulated by formaldehyde. FrmR is specific to formaldehyde, responding to acetaldehyde, methylglyoxal, and glyoxal to far lesser degrees and not at all to a range of other aldehydes and alcohols tested. The genes frmA and frmB encode a formaldehyde dehydrogenase and S-formylglutathione hydrolase, respectively, and are responsible for detoxifying formaldehyde to formic acid in a glutathione-dependent pathway. The negative-feedback regulation of the frmRAB operon is similar to that of many other prokaryotic operons, whereby the transcription factor represses its own transcription.
Fig 1: Without Formaldehyde
Fig 2: With Formaldehyde
Features
- It’s a formaldehyde-inducible promoter from E.coli.
- It’s an engineered promoter. It retains formaldehyde responsiveness, with 2-fold higher GFP expression in response to 100 μM formaldehyde than the native pfrm. Application of this promoter with higher basal and induced expression levels before methanol assimilation genes achieves higher biomass titers than the native E. coli pfrm.
Origins
Escherichia coli
Experimental Characterization
Though we failed a lot of times that we cannot even count, due to a lot of different reasons and controls. Eventually we found the proper setting of our equipment, and got some promising data as below:
Experiment 1
Culture environment: saturated formaldehyde aqueous solution with concentration of 37 percent
Instruments: tecan infinite m1000
Experiment group: BL21 with pFrmR+EGFP
Control group: BL21 (with no plasmid transformed)
- Test the OD number of overnight-cultured strain;
- Diluted to 0.05, the strains are cultured under 37 celsius, 220prm.
- Take 5 tubes of 1ml system both from experiment group and control group and add 0ul, 1ul, 2.5ul, 5ul, and 7.5ul saturated formaldehyde solution into each tube. Mix evenly.
- ake 150ul from each of the tubes into 96 orifice plate.
- est fluorescence in tecan infinite m1000.
Related conditions:
Excitation Wavelength 495 nm
Emission Wavelength 525 nm
List of actions in this measurement script:
Shaking (Orbital) Duration: 900 s
Shaking (Orbital) Amplitude: 2 mm
Shaking (Orbital) Frequency: 306 rpm
Results:
In solution with 1ul of formaldehyde, luminescence was the most obvious, indicating more active pFrmR.
Experiment 2
Culture environment: saturated formaldehyde aqueous solution with concentration of 37 percent
Instruments: tecan infinite m1000
Experiment group: BL21 with pFrmR+EGFP
Control group: BL21
- Test the OD number of overnight-cultured strain;
- Diluted to 0.05, the strains are cultured under 37 celsius, 220prm.
For experiment group:
- Take 5 tubes of 1ml system both from experiment group and control group and add 0ul,0.2ul,0.5ul,1ul,and 1.5ul saturated formaldehyde solution into each tube. Mix evenly.
- Take 150ul from each of the tubes into 96 orifice plate.
- Test fluorescence in tecan infinite m1000.
Related conditions:
Excitation Wavelength 495 nm
Emission Wavelength 525 nm
List of actions in this measurement script:
Shaking (Orbital) Duration: 900 s
Shaking (Orbital) Amplitude: 2 mm
Shaking (Orbital) Frequency: 306 rpm
Results:
Summarized graph for all groups of FrmR and BL21. In solution with 1ul of formaldehyde, luminescence was the most obvious, indicating more active pFrmR.
In solution with no formaldehyde dosed, BL21 with EGFP had similar expression of fluorescence with control group.
In solution with addition of 0.2ul of formaldehyde, BL21 with EGFP had similar expression of fluorescence with the control group, which means in this condition the activity of pFrmR was low.
In solution with addition of 0.5ul of formaldehyde, the difference in fluorescent degree between BL21 with EGFP and the control group was clear, indicating higher activity of pFrmR.
In solution with addition of 1ul of formaldehyde, the difference in fluorescent degree between BL21 with EGFP and the control group was the most obvious, indicating highest activity of pFrmR which successfully activated EGFP.
In solution with addition of 1.5ul formaldehyde solution, the difference in fluorescent degree between BL21 with EGFP and the control group was clear, indicating the certain level of activity of pFrmR.
In solution with addition of 1ul of formaldehyde solution, the activity of pFrmR was the highest.
In formaldehyde free condition, FrmR inhibiting factor regulates pFrmR through negative feedback, lowering the activity of the promotor. After adding the inductor, FrmR inhibiting factor combined with formaldehyde molecules, lowering the effect of the negative feedback, thus the activity of pFrmR will be higher.
Improvements
The sequence of this part was taken from the research of Rohlhill J. et al. The 2 binding sites of variations are -35 and -10 (Fig 1). We ordered synthesized plasmid with pFrmR and EGFP from Gensceipt and constructed pFrmR-EGFP-FrmR reporter system on plasmid pUC57. After dosing formaldehyde of 100 to 400uM, we tested the EGFP expression to identify the activity of the formaldehyde induced response of this prompter.
The research conducted by Rohlhill J. et al. has proved that, pFrmR retains formaldehyde responsiveness, with 2-fold higher GFP expression in response to 100 μM formaldehyde than the native pfrm (BBa_K749008, submitted by TMU-Tokyo in 2012 and they did not observe any GFP expression that year.)[4].This is quite a new discovery and we have not found other published researches having applied this promoter, which means, we are the first team that brings it to iGEM!
Future Improvements:
We plan to optimize our reporter vector by introducing an independent promoter pLac to regulate the expression of FrmR.
Fig 1: Sites of mutants
Fig 2: Comparison of activity
Fig 3: Current reporter system
Fig 5: Future reporter system
Potential Application
- To construct a formaldehyde sensor with this promoter.
- To enable higher growth under formaldehyde pressure with the application of the engineered formaldehyde responsive promoter.
Parts Verification Before Submission
We verified our parts in the lab before submission. They are reliable! Please feel free to apply them onto your project.=)
Fig 1: PCR (to get targeted genes)
Fig 2: Restriction Digestion
Fig 3: Ligation
Fig 4: Colony PCR
Fig 5: Gel Verification
References
- Osman, D., Piergentili, C., Chen, J., Sayer, L. N., Uson, I., Huggins, T. G., Robinson, N. J., and Pohl, E. (2016) The Effectors and Sensory Sites of Formaldehyde-Responsive Regulator FrmR and Metal-Sensing Variant. J. Biol. Chem. 291, 19502-19516
- Denby, K. J., Iwig, J., Bisson, C., Westwood, J., Rolfe, M. D., Sedelnikova, S. E., Higgins, K., Maroney, M. J., Baker, P. J., Chivers, P. T., and Green, J. (2016) The mechanism of a formaldehyde-sensing transcriptional regulator. Sci. Rep. 6, 38879
- Gonzalez, C. F., Proudfoot, M., Brown, G., Korniyenko, Y., Mori, H., Savchenko, A. V., and Yakunin, A. F. (2006) Molecular basis of formaldehyde detoxification: Characterization of two S-formylglutathione hydrolases from Escherichia coli, FrmB and YeiG. J. Biol. Chem. 281, 14514-14522
- Rohlhill J, Sandoval N R, Papoutsakis E T. Sort-seq approach to engineering a formaldehyde-inducible promoter for dynamically regulated Escherichia coli growth on methanol.[J]. Acs Synthetic Biology, 2017, 6(8)
Contribution
- Group: [http://2019.igem.org/Team:ZJUT-China iGEM Team ZJUT-China 2019]
- Author: Jing Yao, Yingying Cao
- Summary: Characterization of the effect of lysin on the growth of Escherichia coli DH5α and BL21(DE3) strains by growth curve
Characterize from ZJUT-iGEM
We added further measurement data to part BBa K2728001. In 2018, BGIC-GOBAL team registered pFrmR, a engineered promoter which was induced by formaldehyde. From they Experimental Characterization, they found it was hard to count the promoter due to the leakage. In this year, we use the catalytic ability of catalase to add quantitative experimental characterization data by counting the A650 of the reaction solution of the bacterial culture and 3, 3’ ,5, 5’ -Tetramethylbenzidine (TMB)
The qualitative experiment
(1) Culture E. coli harboring pFrmR - Cat gene in LB medium with different concentrations of formaldehyde (0 mg/ml, 10 mg/ml, 20 mg/ml, 40 mg/ml, 80 mg/ml, 100 mg/ml, 120 mg/ml) for 12 h .
(2) Measure the absorbance of the bacteria liquid at the wavelength of 600 nm and dilute the bacteria solution until the OD600 reached 0.5.
(3) Take 40 μl diluted bacteria liquid out in 96 - well plates .
(4) Add 160 μl TMB reagent in the bacterial liquid containing 96-well plate and incubate it at 37℃ for half an hour.
(5) Measure the absorbance of the reaction solution 96-well plate at the wavelength of 650 nm using ultraviolet spectrophotometer.
Related conditions
Data
The measured absorbance is shown below:
Figure 1.1 The original data of the A650 of the reaction solution
Figure 1.2 Activation of pFrmR in different fromaldehyde concentrations
Analysis
When the E. coli were cultured with or without formaldehyde, they could react with TMB and the solution turned blue, which indicated that both of them produced catalase, and the absorbance at 650 nm was similar. The results indicated that FrmR promoter leakaged. There is no difference between the two situation because of the long culture time and the excessive amount of expressed enzymes, shortening the culture time can reduce the expression of enzymes, and whether the start-up of pFrmR can be seen.
The quantitative experiment
Considering to make the induction phenomenon more obvious by shortening the test culture time, we decided to take the bacterial liquid at specific times during the growth process and react with TMB. To avoid the effect on cell growth caused by sampling. We performed 32 culture batches and each group of measurements was repeated three times in parallel. We took E. coli containing pet-28b-cat plasmid as the control group, and E. coil with pet-28b-pfrmr-cat as the experimental group.
(1) Pick one colony of the strains into 5 ml LB medium and cultivate it overnight.
(2) Take 10 μl seed culture in 3 ml LB medim with 0 mg/ml, 80 mg/ml, and 120 mg/ml of formaldehyde.
(3) Take 200 μl cell culture at 3, 4.5, 5, 6, 7, 7.5, 8 and 8.5 hours respectively and stored at 4℃.
(4) Measure the absorbance of the bacteria liquid at the wavelength of 600 nm and dilute the bacteria solution until the OD600 reached 0.5.
(5) Take 40 μl diluted bacteria liquid out in 96 - well plates .
(6) Add 160 μl TMB reagent in the bacterial liquid containing 96-well plate and incubate it at 37℃ for half an hour.
(7) Measure the absorbance of the reaction solution 96-well plate at the wavelength of 650 nm using ultraviolet spectrophotometer.
Related conditions
Data
The measured absorbance is shown below:
Figure 1.3 The original data of the A650 of the reaction solution
Form 1.2 The Aorbance of the reaction solution at the wavelength of 650 nm
Figure 1.5 A650 of 4.5 h and 5 h of difference groups
Analysis
It can be seen from figure 1.3 that after cultivation for 4.5 h and 5 h in LB medium containing 80 mg/ml and 120 mg/ml formaldehyde, reaction of the bacterial liquid with TMB, the value of A650 are very similar to the value of positive control group. This could indicate that although pFrmR exists promoter leakage phenomenon at the early stage of culture, the FrmR promoter was abled to induce by formaldehyde between 4h and 5h. Besides, the reason why the difference between the experimental groups was not obvious after 6h was that catalase might had been overexpressed and the detection agent TMB was extremely sensitive to Cat.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]