Part:BBa_K346005
Mercury (II) ions absorption device
Hg(II) Bioabsorption Device
This part was designed to function as mercury(II) ions absorption device in our project. If T7 polymerase is inductively expressed, this device will be switched on and metal bind peptide will be dramatically expressed and translocated to cytosol, periplasm and outer membrane surface. Namely, bacteria bearing this device will function as whole-cell bioabsorbent in the presence of T7 polymerase.
Description:
This device is designed to consist of three subparts----the T7 promoter-RBS-DsbA-MBP-Terminator, T7 promoter-RBS-MBP-Terminator and T7 promoter-RBS-LPP-OpmA-MBP-Terminator (figure 1), which can bind mercury modularly in periplasm, cytosol and on the membrane of E.coli, to maximize the absorption capacity.
1 Metal Binding Pepside(MBP)
MBP was designed as a single-chain polypeptide that could fold into an antiparallel coiled coil. Previous work showed that artificial MBP chain still kept the in vivo metal-binding ability comparable to dimeric, full-length MerR, while it comprises less amino acids and will cost less for large-scale expression. Since our ultimate goal is to design a high-performance and less energy-consuming bioabsorbent, the MBP is an excellent candidate for the absorbent effector.The construction and structure of MBP are shown as below.
2 DsbA-MBP
MBP was fused with DsbA, a periplasmically translocated signal protein, to construct periplasmic MBP.
3 Lpp-OmpA-MBP
Lpp-OmpA-MBP was designed as a fusion protein consisting of the signal sequence and first 9 amino acid of Lpp, residue 46~159 of OmpA and the metal binding peptide(MBP). The signal peptide of the N-termini of this fusion protein targets the protein on the membrane while the trans-membrane domain of Ompa serves as an anchor. MBP is on the externally exposed loops of OmpA, which can be anchored to the outer membrane.
4 Assembly
We finally assembled the three modules together: MBP, DsbA-MBP, Lpp-OmpA-MBP, which were expressed separately in cytoplasm, periplasmic space and on the membrane. More information about this design will be given in the "Part design".
Result
Expression test
We first use SDS-PAGE and Western blotting to analyse the expression of this engineered MBP protein. We can see from the result of them that the MBP is truly expressed in a large quantity. We then analyze the different form of MPB fusion protein, the DsbA-MBP which is expressed in the periplasm, and the lpp-OmpA-MBP on the surface, also using Western blotting and SDS-PAGE. The result indicated that the right fusion protein have been expressed correctly to their location.
Figure 1: The result of SDS-PAGE and Western blotting, indicating the expression of MBP, DsbA-MBP, lpp-OmpA-MBP in different location.
Function Test
We mainly used two methods to evaluate the capability and efficacy of our bioabsorbent:
For qualitative measurement, we invented a creative method to directly visualize the detoxification process of our bioabsorbent. The results are show here.For more details please visit the experience page.
We then use IPC-AES to detect the mercury binding capacity of the engineered MBP. From the result we can see that the surface displayed Lpp-OmpA-MBP has the highest capacity and efficiency.Though the mercury absorption device didn't work completely as predicted, it is still obvious that the efficiency of the device is higher than the MBP and Dsba-MBP,indicating that the design to combine these three subparts can indeed increase the efficiency. However, since the expression of exogenous proteins places harder burden on bacteria, the efficiency of expression will be affected. This can explain why the efficiency of the device is lower than that of Lpp-OmpA-MBP.
Figure 3 && Figure 4The figure on the left showed the mercury binding capacity in different mercury concentration. We can see that the bacteria can absorbed more mercury in higher mercury concentration. But the bacteria had no significant mercury binding capacity when cultured with 0.1 uM mercury. But it is the detection limit of our biosensor. The figure on the right showed the mercury binding capacity of bacteria expressing differently localized MBPs. The surface displayed MBPs appear to have highest binding capacity while the pyramiding of MBP expression does not work well. This is because it is hard for the hydrophilic mercury ions to pass through the hydrophobic inner membrane.
Mercury (II) ions absorption device
- 10INCOMPATIBLE WITH RFC[10]Illegal PstI site found at 529
- 12INCOMPATIBLE WITH RFC[12]Illegal PstI site found at 529
- 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 317
Illegal BamHI site found at 1148
Illegal BamHI site found at 2111 - 23INCOMPATIBLE WITH RFC[23]Illegal PstI site found at 529
- 25INCOMPATIBLE WITH RFC[25]Illegal PstI site found at 529
Illegal AgeI site found at 149 - 1000COMPATIBLE WITH RFC[1000]
n/a | Mercury (II) ions absorption device |