Difference between revisions of "Part:BBa J61032:Experience"
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===Applications of BBa_J61032=== | ===Applications of BBa_J61032=== | ||
− | [[File: | + | |
− | [ | + | [http://2013.igem.org/Team:ETH_Zurich ETH Zurich 2013] used PhoA in their project as a reporter enzyme. |
− | To test the functionality of the enzyme, | + | |
− | + | <b>Colorimetric and fluorometric response</b> | |
− | [[File: | + | [[File:PhoA_PhoA_his_compared_colored.png|thumb|right|200px|<b>Figure 2. Liquid culture from the triple knockout <i>E.Coli</i> strain overexpressing PhoA or PhoA-His respectively after reacting with pNPP.</b> The negative control contains liquid culture without pNPP added.]] |
− | Cell lysate for the assay described below was tested for active enzyme in the same way, but with the fluorescent substrate 4-MU-phosphate. The picture was taken with a common single lens reflex camera mounted on a dark hood at λEx 365 nm. | + | [[File:PhoAandblueliquid.JPG|thumb|right|200px|<b>Figure 3. Liquid culture from the triple knockout <i>E.Coli</i> strain overexpressing PhoA after reacting with BCIP.</b> The negative control contains liquid culture without BCIP added.]] |
+ | To test the functionality of the enzyme, liquid culture of the Δ''aes''Δ''gusA''Δ''nagZ'' <i>Escherichia coli</i> strain overexpressing PhoA was incubated with pNPP (Figure 2). Another suitable chromogenic substrate for detection of PhoA is BCIP (Figure 3).<br> | ||
+ | [[File:PhoASubstrates.png|thumb|center|396px|<b>Figure 1. Enzymatic reaction of PhoA with pNPP (1) or BCIP (2).</b>]] | ||
+ | Cell lysate for the assay described below was tested for active enzyme in the same way, but with the fluorescent substrate 4-MU-phosphate. The picture in Figure 5 was taken with a common single lens reflex camera mounted on a dark hood at λ<sub>Ex</sub> 365 nm. | ||
[[File:phoa_fluorescent_reaction.png|frame|center|<b>Figure 4. Enzymatic reaction of PhoA with 4-MU-phosphate.</b>]] | [[File:phoa_fluorescent_reaction.png|frame|center|<b>Figure 4. Enzymatic reaction of PhoA with 4-MU-phosphate.</b>]] | ||
− | To characterize the enzyme they conducted fluorometric assays to obtain | + | [[File:PhoA_fluorescent.png|thumb|center|200px|<b>Figure 5. Cell lysate from the Δ''aes''Δ''gusA''Δ''nagZ'' <i>E scherichia coli</i> strain overexpressing PhoA after reacting with 4-MU-phosphate.</b>]] |
+ | <html><table border="1" bordercolor="silver" style="float:left;margin-top:10px;font-size:12px;font-family:verdana;border-collapse:collapse"> | ||
+ | <tr> | ||
+ | <th width="95px" >Hydrolase</th> | ||
+ | <th width="220px" >Substrate</th> | ||
+ | <th width="120px" >Absorption λ<sub>max</sub> or Excitation/Emission</th> | ||
+ | <th width="145px" >Stock solution</th> | ||
+ | <th width="145px" >Liquid culture: end concentration</th> | ||
+ | <th width="145px" >Colonies: 1.5 μl of substrate solution</th> | ||
+ | <th width="145px" >Response time</th> | ||
+ | </tr> | ||
+ | <tr> | ||
+ | <td rowspan="3" align="center">PhoA | ||
+ | </td> | ||
+ | <td bgcolor="#FFFFCC">4-Nitrophenoyl-phosphate (pNPP)</td> | ||
+ | <td>Yellow,<br>405 nm</td> | ||
+ | <td>0.5 M in DEA</td> | ||
+ | <td>50 mM</td> | ||
+ | <td>0.5 M</td> | ||
+ | <td><b>~ 1 minute</b></td> | ||
+ | </tr> | ||
+ | <tr> | ||
+ | <td bgcolor="#F0FAFF">5-Bromo-4-Chloro-3-indolyl phosphate (BCIP)</td> | ||
+ | <td>Blue,<br>615 nm</td> | ||
+ | <td>0.1 M in H<sub>2</sub>O</td> | ||
+ | <td>1 mM</td> | ||
+ | <td>50 mM</td> | ||
+ | <td><b>~ 30 minutes</b></td> | ||
+ | </tr> | ||
+ | <tr> | ||
+ | <td> 4-MU-phosphate</td> | ||
+ | <td>Blue (fluorescent),<br>372 nm (λ<sub>Ex</sub>), <br>445 nm (λ<sub>Em</sub>)</td> | ||
+ | <td>50 mM in DMSO</td> | ||
+ | <td>50 μM</td> | ||
+ | <td>-</td> | ||
+ | <td><b>~ 5 minutes</b></td> | ||
+ | </tr> | ||
+ | </table> | ||
+ | </html> | ||
+ | <br clear="all"><br> | ||
+ | |||
+ | <b>Kinetics</b><br> | ||
+ | To characterize the enzyme they conducted fluorometric assays to obtain K<sub>m</sub> values. To this end bacterial cells were grown until in exponential growth phase. Upon reaching this, gene expression was induced by AHL (see [http://http://2013.igem.org/Team:ETH_Zurich/Infoproc ETHZ system 2013]). After another 4-5 h of growth, cells were harvested and lysed, the cell free extract (CFX) used for the fluorometric assay. The properly diluted CFX was measured on a 96 well plate in triplicates per substrate concentration. A plate reader took measurements at λ<sub>Ex</sub> 365 nm and λ<sub>Em</sub> 445 nm. | ||
The obtained data was evaluated and finally fitted to Michaelis-Menten-Kinetics with SigmaPlot™. | The obtained data was evaluated and finally fitted to Michaelis-Menten-Kinetics with SigmaPlot™. | ||
See the resulting graph below. | See the resulting graph below. | ||
− | [[File:phoa_menten.png|frame|center|500px|<b>Figure | + | [[File:phoa_menten.png|frame|center|500px|<b>Figure 6. Michaelis-Menten-Kinetics of PhoA cell lysate from <i>E.Coli</i> overexpressing PhoA:</b> plots velocity versus substrate concentration (2.5 μL, 5 μL, 10 μL, 30 μL, 60 μL, 120 μL, 240 μL) in 20 mM Tris buffer of pH 8. A kinetic value for K<sub>m</sub> obtained by fitting the raw data to standard the Michaelis Menten equation; K<sub>m</sub> = 105.9 ± 5.3 μM. All assays were carried out in triplicates, results are presented as means.]] |
The experimental procedure was as following: | The experimental procedure was as following: | ||
#Prepare buffers | #Prepare buffers | ||
#*Lysis buffer: 10 mg/ml Lysozyme, 20 mM Tris buffer, pH 8 | #*Lysis buffer: 10 mg/ml Lysozyme, 20 mM Tris buffer, pH 8 | ||
#*Reaction buffer: 20 mM Tris buffer, pH 8 | #*Reaction buffer: 20 mM Tris buffer, pH 8 | ||
− | #*NOTE: For other enzymes than the ones we tested (Aes, GusA, NagZ, PhoA) you might need different buffers | + | #*NOTE: For other enzymes than the ones we tested (Aes,GusA,NagZ,PhoA) you might need different buffers |
#Cell culture | #Cell culture | ||
#*Inoculate bacteria in 20 mL of LB with antibiotics | #*Inoculate bacteria in 20 mL of LB with antibiotics | ||
− | #*Let grow at 37°C shaking (200 rpm) to an OD<sub>600</sub> of 0.6 | + | #*Let grow at 37°C shaking(200 rpm) to an OD<sub>600</sub> of 0.6 |
− | #*Induce enzyme expression ( | + | #*Induce enzyme expression (100nM AHL in our case) |
− | #*Let grow at 37°C shaking (200 rpm) for 4-5h<br> | + | #*Let grow at 37°C shaking(200 rpm) for 4-5h<br> |
#Cell lysis | #Cell lysis | ||
#*Transfer to 50 mL Falcon™ tube | #*Transfer to 50 mL Falcon™ tube | ||
Line 46: | Line 91: | ||
#*Add 8 μL diluted CFX (the further dilution ocurring here is intended) | #*Add 8 μL diluted CFX (the further dilution ocurring here is intended) | ||
#*Add 30.4 μL of corresponding substrate | #*Add 30.4 μL of corresponding substrate | ||
− | #*Detection of fluorescence in suitable plate reader (λEx 365 nm, λEm 445 nm) | + | #*Detection of fluorescence in suitable plate reader (λ<sub>Ex</sub> 365 nm, λ<sub>Em</sub> 445 nm) |
+ | <hr /> | ||
Latest revision as of 16:58, 30 October 2013
This experience page is provided so that any user may enter their experience using this part.
Please enter
how you used this part and how it worked out.
Applications of BBa_J61032
[http://2013.igem.org/Team:ETH_Zurich ETH Zurich 2013] used PhoA in their project as a reporter enzyme.
Colorimetric and fluorometric response
To test the functionality of the enzyme, liquid culture of the ΔaesΔgusAΔnagZ Escherichia coli strain overexpressing PhoA was incubated with pNPP (Figure 2). Another suitable chromogenic substrate for detection of PhoA is BCIP (Figure 3).
Cell lysate for the assay described below was tested for active enzyme in the same way, but with the fluorescent substrate 4-MU-phosphate. The picture in Figure 5 was taken with a common single lens reflex camera mounted on a dark hood at λEx 365 nm.
Hydrolase | Substrate | Absorption λmax or Excitation/Emission | Stock solution | Liquid culture: end concentration | Colonies: 1.5 μl of substrate solution | Response time |
---|---|---|---|---|---|---|
PhoA | 4-Nitrophenoyl-phosphate (pNPP) | Yellow, 405 nm |
0.5 M in DEA | 50 mM | 0.5 M | ~ 1 minute |
5-Bromo-4-Chloro-3-indolyl phosphate (BCIP) | Blue, 615 nm |
0.1 M in H2O | 1 mM | 50 mM | ~ 30 minutes | |
4-MU-phosphate | Blue (fluorescent), 372 nm (λEx), 445 nm (λEm) |
50 mM in DMSO | 50 μM | - | ~ 5 minutes |
Kinetics
To characterize the enzyme they conducted fluorometric assays to obtain Km values. To this end bacterial cells were grown until in exponential growth phase. Upon reaching this, gene expression was induced by AHL (see [http://http://2013.igem.org/Team:ETH_Zurich/Infoproc ETHZ system 2013]). After another 4-5 h of growth, cells were harvested and lysed, the cell free extract (CFX) used for the fluorometric assay. The properly diluted CFX was measured on a 96 well plate in triplicates per substrate concentration. A plate reader took measurements at λEx 365 nm and λEm 445 nm.
The obtained data was evaluated and finally fitted to Michaelis-Menten-Kinetics with SigmaPlot™.
See the resulting graph below.
The experimental procedure was as following:
- Prepare buffers
- Lysis buffer: 10 mg/ml Lysozyme, 20 mM Tris buffer, pH 8
- Reaction buffer: 20 mM Tris buffer, pH 8
- NOTE: For other enzymes than the ones we tested (Aes,GusA,NagZ,PhoA) you might need different buffers
- Cell culture
- Inoculate bacteria in 20 mL of LB with antibiotics
- Let grow at 37°C shaking(200 rpm) to an OD600 of 0.6
- Induce enzyme expression (100nM AHL in our case)
- Let grow at 37°C shaking(200 rpm) for 4-5h
- Cell lysis
- Transfer to 50 mL Falcon™ tube
- Spin down at 4°C for 5 min with 4 rcf
- Resuspend in lysis buffer, 1 μL/mg pellet
- Transfer to eppendorf tubes
- Incubate at room temperature for 10 min at 220 rpm
- Spin down at 4°C for 10 min with max. speed
- Transfer the supernatant to new tubes, discard pellets
- Cell free extract can be stored at -20°C or continue processing
- Dilution
- The following values were provided by Johannes Haerle
- Aes: Dilute CFX 1:100 in reaction buffer
- GusA: Dilute CFX 1:100 in reaction buffer
- NagZ: Use pure
- PhoA: Dilute CFX 1:10 in reaction buffer
- The following values were provided by Johannes Haerle
- Hydrolysis reaction
- Perform this measurement in a 96 well plate or similar
- Perform 3 replicates for each substrate concentration
- Present 41.6 μL reaction buffer in each well
- Add 8 μL diluted CFX (the further dilution ocurring here is intended)
- Add 30.4 μL of corresponding substrate
- Detection of fluorescence in suitable plate reader (λEx 365 nm, λEm 445 nm)
[http://2012.igem.org/Team:Technion Team Technion (2012)] have made an assay using this part. The BioBrick they used is BBa_K784000 consisting of T7 RNAP promoter, phoA and T7 terminator.
We have used the part inside a BL21 strain of E.coli which has an endogenouse PET system.
In the presence of IPTG inducer, T7 RNAP is expressed and activates the part promoter which expresses the Alkaline Phosphatase gene (phoA).
The graph below presents the results of the experiment described. The absorbance at 420nm for each of the different concentrations of the inducer in a range of 0.5 μΜ to 1000 μΜ on a logarithmic scale. The absorbance was calculated via different dilutions of the samples: dilutions by 0.5, by 0.25, and by 0.1. The error bars represent the processing of the data collected. The line at the bottom of the graph represents the basal level according to the control result- no IPTG induction.
As can be seen, the graph shows a clear positive tendency- the higher the concentration the higher the absorption, as expected. Starting from a concentration of 40 μM and above, there are only small deviations from the absorption value of 1.2, probably due to the fact that saturation has been achieved.
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