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Team:BCCS-Bristol/Notebook/Week 10
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(New page: {{:Team:BCCS-Bristol/Header}} {{:Team:BCCS-Bristol/NotebookHeader}} ===Week 10=== ====Bioscaffold Tests==== * The LacZ reporter gene seems not to be cut by XbaI enzyme and hence canno...) |
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No GFP was seen to be produced in both the control and the FhuA-GFP construct. Also the FhuA-GFP construct seem not to be of high concentration. | No GFP was seen to be produced in both the control and the FhuA-GFP construct. Also the FhuA-GFP construct seem not to be of high concentration. | ||
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| + | [[Image:BCCS_cell_conc.jpg|center|500px|frame|The graph shows on the y-axis Optical Density at absorbance of 600nm (representative of cell concentration). The higher the value, the higher the cell concentration. The x-axis is the percentage of L-Arabinose used for promoter induction. ARF is AraC-RBS-FhuA-GFP and results show drop in optical density after promoter induction. ARG is AraC-RBS-GFP-Terminator and after promoter induction there is no drop in optical density. Clearly the promoter (AraC-RBS) works whilst the FhuA-GFP protein fusion inhibits cell growth.]] | ||
Revision as of 13:10, 9 October 2009
BCCS-Bristol
iGEM 2009
iGEM 2009
Week 10
Bioscaffold Tests
- The LacZ reporter gene seems not to be cut by XbaI enzyme and hence cannot be used in the Alternative Bioscaffold tests.
- To replace LacZ we decided to use RFP (E1010) as a downstream protein for the Bioscaffold alternative tests. Ligations and transformations were set up for the 4 different bioscaffold versions, upstream of RFP on the pSB2k3 plasmid backbone. Only A1(CspCI st.) and A2(BseRI) were succesful.
- Site-Directed mutagenesis was set up to mutate the illegal EcoRI site in OsmE and the Bioscaffold illegal site in GFP. This was performed only on the full constructs shown below (* indicates mutagenesis site):
1) AraC-RBS-FhuA-Bioscaffold-GFP*-Terminator (for 4 different bioscaffold versions) 2) AraC-RBS-OsmE*-Bioscaffold-GFP-Terminator (for 4 different bioscaffold versions)
- Transformations with XL-1 Blue were set up for the above mutants. Transformations with 2ul of the mutated products were unsuccessful.
- Transformed versions A1(CspCI St.) A2(BseRI) A3(CspCI alternative) of the bioscaffold constructs with FhuA. 7ul in Nova-Blue strain. Transformations were successful but only few colonies appeared.
Alternative Assembly Constructs
- A finished version of alternative assembly was created featuring:
1) AraC-RBS-FhuA-GFP
- The finished construct was tested by setting up overnight 5ml liquid cultures in LB Broth (Ampicillin only). The following was set up:
1) AraC-RBS-FhuA-GFP 2) AraC-RBS-GFP-Term (control and promoter testing)
In the morning 100ul aliquots were transferred in fresh medium (5ml LB+Ampicillin) and were induced with arabinose in varying concentrations;
1) 0% 2) 0.05% 3) 0.1% 4) 0.2% 5) 0.5% 6) 1%
No GFP was seen to be produced in both the control and the FhuA-GFP construct. Also the FhuA-GFP construct seem not to be of high concentration.
The graph shows on the y-axis Optical Density at absorbance of 600nm (representative of cell concentration). The higher the value, the higher the cell concentration. The x-axis is the percentage of L-Arabinose used for promoter induction. ARF is AraC-RBS-FhuA-GFP and results show drop in optical density after promoter induction. ARG is AraC-RBS-GFP-Terminator and after promoter induction there is no drop in optical density. Clearly the promoter (AraC-RBS) works whilst the FhuA-GFP protein fusion inhibits cell growth.
