Team:Edinburgh/Results/Glycogen3

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Edinburgh iGEM 2008

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Glycogen Assay 3 (Quantitative: Raman)

Raman spectroscopy was performed by Dr Rabah Mouras.

Experiment Design

This quantitative assay compared the amount of glycogen produced by:

Sample 1 (Control): E. coli cells with no modification to the glycogen production system and grown in a medium which does not promote glycogen formation. These should have a low, basal level of glycogen.
Sample 2: E. coli cells overexpressing glgC16 BioBrick and grown in a glucose-free medium. These should produce a higher level of glycogen than the control.
Sample 3: E. coli cells overexpressing with the glgC16 Biobrick and grown in a high-glucose medium. These should produce the highest level of glycogen.

Results from Glycogen Assay 2 (Qualitative) were in line with these expectations.

The three samples were analysed by Raman spectroscopy to determine the glycogen:protein ratio. Glycogen results in a peak at a Raman shift of 478cm^-1, so the Raman intensity of this peak was measured for each sample and compared to the Phenylalanine peak at 1003cm^-1.

Results

The results confirm our expectations. Control cells (S1) produced the least amount of glycogen and cells overexpressing glgC16 and grown in high-glucose medium (S3), the most. From the intensity of the glycogen peak, the concentration of glycogen in S3 is estimated to be 3~4 times more than in S2.

We may thus conclude that the glgC16 BioBrick results in significantly increased production of glycogen, especially in a high-glucose medium.

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 [[Image:Edinburgh%3DGlycogen-Assay3.jpg|500px]]
-The results confirm our expectations. Control cells (S1) produced the least amount of glycogen and ''glgC16'' cells grown in high-glucose medium (S3) the most. From the intensity of the glycogen peak, the concentration of glycogen in S3 is estimated to be 3~4 times more than in S2.
+The results confirm our expectations. Control cells (S1) produced the least amount of glycogen and cells overexpressing ''glgC16'' and grown in high-glucose medium (S3), the most. From the intensity of the glycogen peak, the concentration of glycogen in S3 is estimated to be 3~4 times more than in S2.
 We may thus conclude that the ''glgC16'' BioBrick results in significantly increased production of glycogen, especially in a high-glucose medium.