Part:BBa_K2235007
OmpR promoter regulating the expression of sialidase enzyme
OmpR is an osmotic pressure promoter. It can sense changes in for example sucrose concentration. A higher concentration of sucrose will lead to a higher expression of the gene after the OmpR promoter. In this biobrick the gene after OmpR is an enzyme called sialidase. This enzyme cuts sialic acid (that's for example found in mucus). The sialidase produced by this biobrick has a HIS-tag on it to make it easy to purify.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal XhoI site found at 189
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 636
Illegal NgoMIV site found at 711
Illegal NgoMIV site found at 801 - 1000INCOMPATIBLE WITH RFC[1000]Illegal BsaI site found at 1181
Usage and biology
OmpR is an already well characterized biobrick (BBa_R0082). It is a promoter that takes advantage of the OmpR/EnvZ two-component system, which is utilized by many bacteria, to sense the change in osmotic pressure. We connected this promoter to the coding sequence for the enzyme sialidase. This enzyme hydrolyzes glycosidic linkages of terminal sialic acid residues in glycoproteins. This composite biobrick can be used to produce sialidase when the osmotic pressure in the environment around the bacteria increases.
Important parameters
Table 1: Parameters for OmpR sialidase biobrick (BBa_K2235007)
| Experiment | Characteristic | Result |
|---|---|---|
| Expression | ||
| Compatibility | E. coli TOP10
E. coli ΔEnvZ | |
| Promoter | OmpR | |
| Optimal temperature | 37 °C | |
| Number of amino acids | XXX | |
| Molecular weight | XXXnbsp;kDa | |
| Purification | ||
| Tag | C-terminal 6xHis | |
| Sialidase expression | ||
| SDS-PAGE | Sialidase expression seen in some tests | |
| Osmotic pressure detection | ||
| Sucrose | Works | |
| NaCl | Non-conclusive data |
Expression and purification of sialidase
We tested our biobrick by cultivating transformed bacteria (both TOP10 and ΔEnvZ) in different concentrations of sucrose, 0, 5, 10 and 15%. After a desired OD was reached (we used OD 0.4) we sonicated the cells to allow for purification of sialidase. The sialidase is connected to a His-tag so we used IMAC columns to purify the enzyme. The purified enzymes were then analyzed by SDS-PAGE, see figure 1-3. The figures shows some vague bands of sialidase for some of the concentrations, however this result is not conclusive enough to say anything about the gradient dependent expression. It is possible to say that the biobrick can produce sialidase, but more test would need to be done and we did not have enough time to finish them.
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Osmotic pressure detection
Before we ligated the OmpR promoter to sialidase we tested how the OmpR promoter works. We found an already existing biobrick for this (BBa_M30011) that had OmpR connected to RFP as a reporter. We designed an osmotic pressure test by the help of iGEM 2015 who already had worked with this biobrick. In the test we cultivated TOP10 cells in different sucrose and NaCl concentrations and measured the fluorescence of RFP at different OD points (for more detailed explanation see the experience page for BBa_M30011). The results we got showed that OmpR produced more RFP as the osmotic pressure increased by sucrose, see figure 4-5. However for NaCl we saw no correlation between the increase in osmotic pressure and RFP expression, see figure 6-7. We therefore decided to only use sucrose when we tested our final biobrick.
| None |