Team:ZJU-China/Project/TheGhostKit/GhostSponge
From 2013.igem.org
The Ghost Kit: Ghost Sponge
Previously described methods concerning protein purification are of great diversity. However, few of them are designed as non-denaturing ones that only allow limited characterization of a distinct protein, as its activity is undermined and thus in need of an alternative method to detect.
Here we build a device on the basis of a fantastic combination of bacterial ghost and aptamer. The incredible chemistry between these two elements enables a high-efficacy non-denaturing purification and therefore greatly revolutionizes the protein purification methodology. It’s pretty handy, with the protein activity maximized. It’s definitely a COOL design. We call it‘Ghost sponge’.
Our device includes the following components – bacterial ghost, inner membrane scaffolds, biotinylated aptamers and our protein of interest – thrombin. Our previous experiments prove that:
- Scaffolds we build are powerful enough to be localized upon the inner membrane.
- Thrombin aptamer we use are of high efficiency.
Naturally we come to sound out the possibility of applying these amazing features into protein purification, if its high-affinity aptamers are available. Bacterial ghost has no cell content – a great characteristic for us as the disturbance in purification is partially erased. Nontheless, what we get is not solely a protein molecule, but a protein-aptamer complex. How we get rid of the unwanted aptamer becomes a trouble we are about to shoot.
Preliminarily, we come up with three approaches:
- By adding the identical nucleotide sequence as aptamer to expel the protein into the solution through competitive binding;
- By adding the complementary nucleotide sequence as aptamer to expel the protein into the solution through competitive binding;
- By adding DNase to digest the aptamer.
Of all these three, the first method possesses another advantage – it's recyclable.If we heat the sample at 50℃ for 2 minutes to dissociate the protein-aptamer complex without significantly compromise the scaffolds we construct.
Although our method is aptamer-dependent, we totally believe that with the development of SELEX and other up-and-coming aptamer-screening methods, the novel purification method may serve as a powerful tool to study proteins with their activity remains.
Our device owns the following amazing features:
- As aptamers are either DNA or RNA, they won’t interfere with protein of interest in gel analysis. Conversely, traditional antibodies may contribute to protein background and induce troubles in subsequent analysis.
- The non-denaturing procedure significantly reserves protein activity by which the further study of endogenous proteins is enabled.
- Although purification by virtue of aptamers is developed, its dependence on beads is a major problem in application. Our bead-free system release lab workers out of the dilemma of whether to buy beads.
- The protocol is really handy and the product has a long shelf life.