Difference between revisions of "Part:BBa K1216005"
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==Characterization== | ==Characterization== | ||
− | [[File:PhoA_His_fluorescent.png|thumb|right|206px|<b>Figure 3. Cell lysate from <i>E. | + | |
− | 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 λ<sub>Ex</sub> 365 nm. | + | <b>The final construct was sequenced.</b><br> |
− | [[File:phoa_fluorescent_reaction.png|frame|center|<b>Figure | + | |
− | To prove that the enzyme retained functionality with an additional His-tag 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. | + | Jump to: <br> |
+ | *[[Part:BBa_K1216005#Colorimetric and fluorometric response|Colorimetric and fluorometric response]] | ||
+ | *[[Part:BBa_K1216005#Kinetics|Kinetics]] | ||
+ | *[[Part:BBa_K1216005#Western Blot|Western Blot]] | ||
+ | <br> | ||
+ | |||
+ | ===Colorimetric and fluorometric response=== | ||
+ | [[File:PhoA_PhoA_his_compared_colored.png|thumb|right|300px|<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.]] | ||
+ | In order to assess whether addition of the His-tag impacts the function of the enzyme, liquid cultures of a Δ''aes''Δ''gusA''Δ''nagZ'' ''Escherichia coli'' strain overexpressing PhoA and PhoA-His were incubated with pNPP. As can be seen from Figure 2, they appear to work equally well. | ||
+ | [[File:PhoA_His_fluorescent.png|thumb|right|206px|<b>Figure 3. Cell lysate from the triple knockout <i>E. coli</i> strain overexpressing PhoA-His after reacting with 4-MU-phosphate.</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 (Figure 1). The picture in Figure 3 was taken with a common single lens reflex camera mounted on a dark hood at λ<sub>Ex</sub> 365 nm.<br><br> | ||
+ | [[File:phoa_fluorescent_reaction.png|frame|center|<b>Figure 1. Enzymatic reaction of PhoA with 4-MU-phosphate.</b>]]<br clear="all"> | ||
+ | <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> 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><br> | ||
+ | </html><br clear="all"><br> | ||
+ | <hr /> | ||
+ | |||
+ | ===Kinetics=== | ||
+ | To prove that the enzyme retained functionality with an additional His-tag, 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_his_menten.png|frame|center|500px|<b>Figure | + | [[File:phoa_his_menten.png|frame|center|500px|<b>Figure 4. Michaelis-Menten-Kinetics of PhoA-His cell lysate from <i>E.Coli</i> overexpressing PhoA-His:</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> = 72.0 ± 7.3 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 | ||
Line 64: | Line 109: | ||
#*Add 30.4 μL of corresponding substrate | #*Add 30.4 μL of corresponding substrate | ||
#*Detection of fluorescence in suitable plate reader (λ<sub>Ex</sub> 365 nm, λ<sub>Em</sub> 445 nm) | #*Detection of fluorescence in suitable plate reader (λ<sub>Ex</sub> 365 nm, λ<sub>Em</sub> 445 nm) | ||
+ | <br clear="all"> | ||
+ | <hr /> | ||
===Western Blot=== | ===Western Blot=== | ||
Line 69: | Line 116: | ||
<p align="justify">The ''phoA'' and ''phoA with His-Tag'' were overexpressed in the ''Escherichia coli'' BL21 DE3 strain, induced by 5 μM IPTG (iso-propy-β-D-1-thiogalactopyranoside) and finally harvested in order to obtain the cell lysate by lysozyme lysis. This cell lysate of both cultures were analyzed next to each other in two SDS-PAGE gels, one for comassie staining (blue gel in the picture) and one for western blotting (black picture) with Anti-6X His tag® antibody from mouse and a second reporter goat anti mouse antibody with a IRDye 680RD. In the picture we can distinguish the PhoA His (53 kDa) on the western blot as well as on the SDS-PAGE gel (see white circles).</p> | <p align="justify">The ''phoA'' and ''phoA with His-Tag'' were overexpressed in the ''Escherichia coli'' BL21 DE3 strain, induced by 5 μM IPTG (iso-propy-β-D-1-thiogalactopyranoside) and finally harvested in order to obtain the cell lysate by lysozyme lysis. This cell lysate of both cultures were analyzed next to each other in two SDS-PAGE gels, one for comassie staining (blue gel in the picture) and one for western blotting (black picture) with Anti-6X His tag® antibody from mouse and a second reporter goat anti mouse antibody with a IRDye 680RD. In the picture we can distinguish the PhoA His (53 kDa) on the western blot as well as on the SDS-PAGE gel (see white circles).</p> | ||
<br clear="all"/> | <br clear="all"/> | ||
+ | <hr /> | ||
===References=== | ===References=== |
Latest revision as of 16:38, 30 October 2013
Alkaline phosphatase (phoA) from Citrobacter with TEV and poly-HIS tags
The alkaline phosphatase is a periplasmic homodimeric hydrolase. The poly-HIS tag can be used for protein purification (IMAC)[1]. The TEV tag can then be used to have the TEV protease specifically cleave off the poly-HIS tag from the purified protein [2].A form of this protein without TEV and poly-HIS tags can be found here.
Usage and Biology
Alkaline phosphatases are used as reporter enzymes in different assays such as Western Blotting and in situ hybridization[3]. Testing human blood for Alkaline Phosphatase levels is a routine test that can reveal different conditions[4].
Alkaline phosphatases cleave phosphate groups from organic compounds by hydrolysis while retaining stereochemistry[5].
A good explanation of the mechanism can be found [http://chemwiki.ucdavis.edu/Organic_Chemistry/Organic_Chemistry_With_a_Biological_Emphasis/Chapter_10%3A_Phosphoryl_transfer_reactions/Section_10.3%3A_Hydrolysis_of__phosphates here].
Alkaline phosphatases, respectively their serum levels, are also related to several diseases e.g. metabolic myopathies and Paget Disease. [6]
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 340
Illegal NgoMIV site found at 787 - 1000COMPATIBLE WITH RFC[1000]
Characterization
The final construct was sequenced.
Jump to:
Colorimetric and fluorometric response
In order to assess whether addition of the His-tag impacts the function of the enzyme, liquid cultures of a ΔaesΔgusAΔnagZ Escherichia coli strain overexpressing PhoA and PhoA-His were incubated with pNPP. As can be seen from Figure 2, they appear to work equally well.
Cell lysate for the assay described below was tested for active enzyme in the same way, but with the fluorescent substrate 4-MU-phosphate (Figure 1). The picture in Figure 3 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 |
4-MU-phosphate | Blue (fluorescent), 372 nm (λEx), 445 nm (λEm) |
50 mM in DMSO | 50 μM | - | ~ 5 minutes |
Kinetics
To prove that the enzyme retained functionality with an additional His-tag, 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)
Western Blot
The phoA and phoA with His-Tag were overexpressed in the Escherichia coli BL21 DE3 strain, induced by 5 μM IPTG (iso-propy-β-D-1-thiogalactopyranoside) and finally harvested in order to obtain the cell lysate by lysozyme lysis. This cell lysate of both cultures were analyzed next to each other in two SDS-PAGE gels, one for comassie staining (blue gel in the picture) and one for western blotting (black picture) with Anti-6X His tag® antibody from mouse and a second reporter goat anti mouse antibody with a IRDye 680RD. In the picture we can distinguish the PhoA His (53 kDa) on the western blot as well as on the SDS-PAGE gel (see white circles).
References
- Loghran ST, "Purification of poly-histidine-tagged proteins.",Methods Mol Biol. 2011;681:311-35. doi: 10.1007/978-1-60761-913-0_17.[http://www.ncbi.nlm.nih.gov/pubmed/20978973]
- [http://homepage.univie.ac.at/nikos.pinotsis/tev_protease.html University of Vienna TEV Protease info]
- Molecular Cell Biology, Fifth Edition, W.H. Freeman & Co., 2004.
- [http://www.nlm.nih.gov/medlineplus/ency/article/003470.htm Medline Plus]
- [http://chemwiki.ucdavis.edu/Organic_Chemistry/Organic_Chemistry_With_a_Biological_Emphasis/Chapter_10%3A_Phosphoryl_transfer_reactions/Section_10.3%3A_Hydrolysis_of__phosphates Section 10.3: Hydrolysis of phosphates]
- Adams & Victor's Principles Of Neurology, 7th edition, McGraw-Hill Professional, 2000.