Difference between revisions of "Part:BBa K3715049"
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<partinfo>BBa_K3715049 short</partinfo> | <partinfo>BBa_K3715049 short</partinfo> | ||
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+ | This part encodes a protein called PETase_MT11, which is a mutation of PETase. | ||
<!-- Add more about the biology of this part here | <!-- Add more about the biology of this part here | ||
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<span class='h3bb'>Sequence and Features</span> | <span class='h3bb'>Sequence and Features</span> | ||
− | <partinfo> | + | <partinfo>BBa_K3715048 SequenceAndFeatures</partinfo> |
<!-- Uncomment this to enable Functional Parameter display | <!-- Uncomment this to enable Functional Parameter display | ||
===Functional Parameters=== | ===Functional Parameters=== | ||
− | <partinfo> | + | <partinfo>BBa_K3715048 parameters</partinfo> |
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+ | ===Usage and Biology=== | ||
+ | This composite part is made up with five basic parts, the RBS, two cutting sites NdeI and XhoI (linker a,b) , the His tag,and our target protein PETase_MT11. It encodes a protein which is Super fused with His tag. The fusion protein is about 31.49kD. In order to gain the highly purified target protein, we add His tag in N-terminal of PETase_MT11 and combine the two parts with the cutting site of protease. The fusion protein can be cut off at the cutting site by protease. It is convenient for us to purify our target protein. | ||
+ | |||
+ | ===Origin(organism)=== | ||
+ | Ideonella sakaiensis | ||
+ | ===Molecular cloning=== | ||
+ | First, we used the vector pET21a to construct our expression plasmid. And then we converted the plasmid constructed to E. coli DH5α to expand the plasmid largely. | ||
+ | <p style="text-align: center;"> | ||
+ | [[File:MT21a11 19.png|500px]]<br> | ||
+ | '''Figure 1.''' The verification results by enzyme digestion.<br> | ||
+ | </p> | ||
+ | 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:'''<br> | ||
+ | The bacteria were cultured in 5mL LB liquid medium with ampicillin(50μg/mL) in 37℃ overnight.<br> | ||
+ | '''Massive expressing:'''<br> | ||
+ | After taking samples, we transfered them into 900ml LB medium and added antibiotic to 50 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 5-6 hours). Induce the culture to express protein by adding 0.5 mM IPTG (isopropylthiogalactoside, MW 238 g/mol). Put the liter flasks in 16°C shaking incubator for 16h.<br> | ||
+ | |||
+ | '''Affinity Chromatography:'''<br> | ||
+ | We used the Ni Agarose to purify the target protein. The Ni Agarose can combine specifically with the Ni-His tag fused with target protein. <br> | ||
+ | * First, wash the column with water for 10 minutes. Change to Ni-binding buffer for another 10 minutes and balance the Ni column.<br> | ||
+ | * Second, add the protein solution to the column, let it flow naturally and bind to the column. <br> | ||
+ | * Third, add Ni-Washing buffer several times and let it flow. Take 5ul of wash solution and test with Coomassie Brilliant Blue. Stop washing when it doesn’t turn blue.<br> | ||
+ | * Forth,add Ni-Washing buffer several times. Check as above. Collect the eluted proteins for further operation.<br> | ||
+ | |||
+ | <p style="text-align: center;"> | ||
+ | [[File:21aProtein11-19.png|500px]]<br> | ||
+ | '''Figure 2.''' The result of SDS-PAGE.<br> | ||
+ | </p> | ||
+ | Well, we can know that the expression level of PETase_MT11 on the vector(pET21a) is very low,from the result of SDS-PAGE (Figure2) . Therefore, we change the vector and tag to obtain high-expression protein. (If you want to know more about this, please see our project introduction. )<br> | ||
+ | ===Conclusion=== | ||
+ | The vector we used (pET21a) did not meet our requirements well, so we replaced the vector and tag. |
Revision as of 02:54, 1 October 2021
T7 promoter+RBS+Linker a+His+PETase_MT11+Linker b+T7 terminator
This part encodes a protein called PETase_MT11, which is a mutation of PETase.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal XhoI site found at 954
Illegal XhoI site found at 968 - 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Usage and Biology
This composite part is made up with five basic parts, the RBS, two cutting sites NdeI and XhoI (linker a,b) , the His tag,and our target protein PETase_MT11. It encodes a protein which is Super fused with His tag. The fusion protein is about 31.49kD. In order to gain the highly purified target protein, we add His tag in N-terminal of PETase_MT11 and combine the two parts with the cutting site of protease. The fusion protein can be cut off at the cutting site by protease. It is convenient for us to purify our target protein.
Origin(organism)
Ideonella sakaiensis
Molecular cloning
First, we used the vector pET21a to construct our expression plasmid. And then we converted the plasmid constructed to E. coli DH5α to expand the plasmid largely.
Figure 1. 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(50μg/mL) in 37℃ overnight.
Massive expressing:
After taking samples, we transfered them into 900ml LB medium and added antibiotic to 50 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 5-6 hours). Induce the culture to express protein by adding 0.5 mM IPTG (isopropylthiogalactoside, MW 238 g/mol). Put the liter flasks in 16°C shaking incubator for 16h.
Affinity Chromatography:
We used the Ni Agarose to purify the target protein. The Ni Agarose can combine specifically with the Ni-His tag fused with target protein.
- First, wash the column with water for 10 minutes. Change to Ni-binding buffer for another 10 minutes and balance the Ni column.
- Second, add the protein solution to the column, let it flow naturally and bind to the column.
- Third, add Ni-Washing buffer several times and let it flow. Take 5ul of wash solution and test with Coomassie Brilliant Blue. Stop washing when it doesn’t turn blue.
- Forth,add Ni-Washing buffer several times. Check as above. Collect the eluted proteins for further operation.
500px
Figure 2. The result of SDS-PAGE.
Well, we can know that the expression level of PETase_MT11 on the vector(pET21a) is very low,from the result of SDS-PAGE (Figure2) . Therefore, we change the vector and tag to obtain high-expression protein. (If you want to know more about this, please see our project introduction. )
Conclusion
The vector we used (pET21a) did not meet our requirements well, so we replaced the vector and tag.