Part:BBa_K2695001
A. oryzae chlorite dismutase
Usage and Biology
This BioBrick is included in our chlorite dismutase parts collection along with BBa_K2695000, BBa_K2695002 and BBa_K2695010.
Chlorite dismutase is an enzyme used mainly by perchlorate reducing bacteria to break down the anion chlorite into chloride and oxygen - a reaction which takes place in the periplasm of the bacterium. Chlorite is damaging to cells as it is a strong oxidant, so even though the reaction it catalyses does not release energy it is essential for survival of these organisms. No other enzymes (except for photosystem 2) are known to have the primary function of producing oxygen through a covalent oxygen-oxygen double bond. (Kostan et. al., 2010).
Exeter iGEM 2018 chose to use the coding sequence for chlorite dismutase from A. oryzae because of the kinetics (reference) compared to that of D. aromatica, A. suillum and N. defluvii. It was expected to have a high activity rate for our chosen conditions.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000INCOMPATIBLE WITH RFC[1000]Illegal BsaI site found at 8
Illegal BsaI.rc site found at 915
Cultivation and Expression
Cultivation:
- Cells were incubated overnight in 5ml LB media (35μg/ml chloramphenicol) at 37oC shaking at 220 rpm.
Expression:
- Cells were grown in 50ml LB media (35μg/ul chloramphenicol) to an OD600 of 0.6, verifying via a spectrophotometer.
- 0.2mM IPTG was added
- 1mM Hemin was added
- Cells were grown for a further 4 hours before harvesting
Western Blot
To demonstrate visually that the proteins were expressed a Western Blot was performed. The Blot membranes were probed with an anti-His-tag primary antibody raised in mouse, and an anti-mouse secondary antibody, raised in goat, conjugated to alkaline phosphatase.
Figure 5: Western blot for Cld constructs Expected molecular weights (kDa): A = 32.97 | B = 32.99 | C = 32.96 | D = 31.20
The Western Blot displayed expression of Chlorite dismutase for A. oryzae, and therefore we have proved expression of our new part.
Cell Lysate Oxygen Production
Oxygen production was chosen as the parameter for enzyme activity, and this was measured using a Clark oxygen electrode. The experiment was performed using lysed, rather than whole, cells to get a 'yes or no' answer to the question 'will oxygen be produced on the addition of sodium chlorite?'
Harvested cells were resuspended in a phosphate buffer, pH 7 and lysed via sonication. Evolution of oxygen from the cell lysate, after addition of sodium chlorite (250 μM), was measured using a Hansatech Clark Oxygen Electrode.
NOTE: Sodium chlorite is extremely toxic (it is a suspected carcinogen) - because of this the oxygen measurement was carried out by a trained supervisor, NOT a member of the iGEM team.
WT = Wild Type E. coli (strain: BL21 (DE3))
Out of the parts collection of chlorite dismutase enzymes, A. oryzae cld was the second most effective at producing oxygen. Therefore we have shown that our new part is functional in E. coli.
The results of this experiment lay the groundwork for future repeats using whole cells to test whether the oxygen will be released from the periplasm of the E. coli.
References
Kostan, J. Sjöblom, B. (2010) Structural and functional characterisation of the chlorite dismutase from the nitrite-oxidizing bacterium “Candidatus Nitrospira defluvii”: Identification of a catalytically important amino acid residue. Journal of Structural Biology, Vol 172 (issue 3), pp 331 - 342 [online]
//cds/enzyme
//chassis/prokaryote/ecoli
//function/degradation
protein | enzyme - chlorite dismutase |