The main results achieved so far are:
1, functionally split the key enzyme in betalain biosynthesis.
2, the split enzyme enables visualizing protein-protein interaction with betalains.
3, the split enzyme can be used in visualizing chemicals-induced protein-protein interaction.
4, the split enzyme can visualize protein affinity in an interaction complex.
5, the betalain biosynthesis enzyme is dysfunctional when tethered to the membranes.
6, visualize protease with betalains
The main toolbox I developed from the project is a novel bimolecular complementation assay to test protein-protein interaction. The other part of the work could be used to develop novel biosensors for visualizing protease. It shows several special properties that make it competitive or outstanding to other widely used toolboxes.
a, it applies the betalain pigments as a report signal. The signal is stable, visible, measurable and eco-friendly.
b, it is genetically or partially encoded and supplied with a substrate.
c, it shows a low background (nonself-assembly) and protein conformation-dependent manner.
d, it can be used to visualize protein affinity.
e, it is low-cost and feasible.