Part:BBa_K2933103
His+Linker a+Sumo+Linker b+ElBlaII
This part encodes the fusion protein of His-Sumo tag and ElBla to promote the expression and purification of target protein(ElBla2-1).
Sequence and Features
- 10INCOMPATIBLE WITH RFC[10]Illegal EcoRI site found at 256
- 12INCOMPATIBLE WITH RFC[12]Illegal EcoRI site found at 256
Illegal NheI site found at 33 - 21INCOMPATIBLE WITH RFC[21]Illegal EcoRI site found at 256
Illegal BglII site found at 145
Illegal BamHI site found at 344 - 23INCOMPATIBLE WITH RFC[23]Illegal EcoRI site found at 256
- 25INCOMPATIBLE WITH RFC[25]Illegal EcoRI site found at 256
Illegal AgeI site found at 839 - 1000COMPATIBLE WITH RFC[1000]
Usage and Biology
To be added
References
Molecular cloning
First, we used the vector pGEX-6p-1 to construct our expression plasmid. And then we converted the plasmid constructed to E. coli DH5α to expand the plasmid largely.
Figure 1. Left: The PCR result of Elbla2-1. Right: The verification results by enzyme digestion.
After verification, it was determined that the construction is successful. We converted the plasmid to E. coli BL21(DE3) for expression and purification.
Expression and purification
Pre-expression:
The bacteria were cultured in 5mL LB liquid medium with ampicillin(100 μg/mL final concentration) in 37℃ overnight.
Massive expressing:
After taking samples, we transfer them into 1L LB medium and add antibiotic to 100 μg/mL final concentration. Grow them up in 37°C shaking incubator. Grow until an OD 600 nm of 0.8 to 1.2 (roughly 3-4 hours). Induce the culture to express protein by adding 0.3 mM IPTG (isopropylthiogalactoside, MW 238 g/mol) or ~0.1 gram per 1.5 liter flask. Put the liter flasks in 16°C shaking incubator for 16h. Centrifuge your bacteria in 500 mL bottles in the 4°C rotor at 4,000 RPM for 20 mins. Do this in batches until all your culture is spun down saving the cell pastes each time.
Purification of GST fusion proteins:
Anion exchange column:
According to the predicted pI of the protein and the pH of the ion-exchange column buffer, firstly select the appropriate ion exchange column (anion exchange column or cation exchange column). The pH of buffer should deviate from the isoelectric point of the protein. Since the isoelectric point of our protein is around 4.7 in theory, we choose buffer pH of 7.4 and use anion exchange column for purification.
The protein is concentrated with a 10KD concentration tube, and then the exchange buffer is used to exchange the protein to the ion-exchange liquid A. Finally, it is concentrated to less than 5ml by centrifuging at 4℃ and 3400rpm for 10 minutes in a high-speed centrifuge to remove insoluble substances and bubbles.
Balance the selected column with liquid A. Through the AKTApure protein purification system, the samples are loaded to the column at a flow rate of 0.5ml/min, and continue washing for 5min. Gradually increase the content of liquid B in the column, change the salt concentration and then change the interaction between the sample and the column, and collect the corresponding eluent according to the position of the peak. Use SDS-PAGE to check the result.
Gel filtration chromatography:
The collected protein samples are concentrated in a 10 KD concentrating tube at a speed of 3400 rpm and concentrated for a certain time until the sample volume is 500 μl. At the same time, the superdex 200 column is equilibrated with a buffer to balance 1.2 column volumes. The sample is then loaded and 1.5 cylinders are eluted isocratically with buffer. Determine the state of protein aggregation based on the peak position and collect protein samples based on the results of running the gel.
Figure 1. (a) The result of gel filtration used the superdex75 column with the AKTA system, which shows that the target protein is monomeric. (b) The result of SDS-PAGE. And the target protein is about 26kD.
Enzyme activity determination
We used CDC-1, a probe with a similar structure from the beta lactam ring and a luminescent group for enzyme activity measurements. For more information on the substrate CDC-1, please see our project introduction.
Materials:
General 96-well plates (Black)
Infinite M1000 Pro Automatic Microplate Reader
Multi-channel adjustable pipette
Ultrasonic Cleaner
Buffer:
100% DMSO
Fluorescent Probe(CDC-1)
Target Enzyme(beta-lactamase)
Determination of enzyme concentration
Figure 2. The concentration of CDC-1 was fixed at 10.5 μM and the enzyme concentration was changed within a certain range, and the fluorescence value was measured with a function of reaction time. (a) First, we selected three gradient concentrations (with large intervals) for pre-experiment, and determined the gradient range of the formal experiment through the experimental results. (b) The appropriate enzyme concentration was selected for determination of the gradient, and the reaction curve of gradual rise was obtained.
Figure 3. We took the emission fluorescence at 3.02nm as the maximum emission fluorescence, and took the logarithm value of different NDM-23 enzyme concentrations to make the relationship curve between protein concentration and fluorescence emission rate. When the emittance of the system was 80%, the protein concentration was 1.51nM, that is, EC80 was 1.51nM.
Determination of the buffer condition
Figure 4. Effect of different buffer condition on enzyme activity.
According to the experimental results, we chose NaCl concentration of 40mM, ZnCl concentration of 25 micron and pH of 8.5.
Michaelis-Menten plot and Lineweaver-Burk plot
Figure 5. (a) The relationship between the substrate concentration and the maximum initial rate was obtained by using the Michaelis-Menten plot. (b) The relationship between the substrate concentration and the maximum initial rate was obtained by using the Lineweaver-Burk plot.
Calculate Km, Vm with the Lineweaver-Burk plot, because it fit better. Kcat values were calculated with the results of maximum fluorescence values at different substrate concentrations.
Figure 6. The enzyme kinetic parameter of Elbla2-1.
Hydrolysis efficiency of different antibiotics
Inhibition of different inhibitors
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