Team:Cambridge/Project/VI03

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Violacein Pigments


Characterisation

Proof of pigment production

Successful Pigment Production

We transformed Top10 with pPSX-Vio+. After three colour eventually appeared, as shown below. Interestingly, the pigment appears to remain within the bacteria, with little or no bleeding into the media. We took the violacein pigment bacteria (right plate in photo) out of the fridge to find that the purple colour had started to develop. They were therefore left at room temperature overnight. The colour appears to be within the bacteria, with little or no bleeding into the media. The control plate (left plate) is the untransformed TOP10 E. coli.

Cambridge Violacein Pigment.jpg

Left: control plate - untransformed TOP10 E. coli, Right: Top10 transformed with pPSX-Vio+.

Pigment production efficienty

The Vio operon is currently on a very low copy number plasmid; moving it onto a higher copy number plasmid may accelerate pigment production.

Cam09 vio.jpg

Characterisation of colour output

We characterised the violacein pigment by carrying out the acetone extraction protocol used for carotene. The results were normalised for OD and then plotted as a graph of absorption units against wavelength:

Vio wavelength graph.JPG

We also looked at absorbance at 584nm (the maximum absorbance for violacein):

Vio absorbance.JPG


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